CN106270291B - Full-automatic hooping double wire machine - Google Patents
Full-automatic hooping double wire machine Download PDFInfo
- Publication number
- CN106270291B CN106270291B CN201610873163.XA CN201610873163A CN106270291B CN 106270291 B CN106270291 B CN 106270291B CN 201610873163 A CN201610873163 A CN 201610873163A CN 106270291 B CN106270291 B CN 106270291B
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- China
- Prior art keywords
- straightening
- clutch
- optoelectronic switch
- wheel
- push pedal
- Prior art date
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- 230000005693 optoelectronics Effects 0.000 claims abstract description 144
- 238000005452 bending Methods 0.000 claims abstract description 80
- 238000010008 shearing Methods 0.000 claims abstract description 29
- 238000007493 shaping process Methods 0.000 claims abstract description 7
- 230000001939 inductive effect Effects 0.000 claims description 79
- 210000003205 muscle Anatomy 0.000 claims description 42
- 230000001681 protective effect Effects 0.000 claims description 9
- 239000000203 mixture Substances 0.000 claims description 3
- 230000003014 reinforcing effect Effects 0.000 abstract description 26
- 238000000034 method Methods 0.000 abstract description 15
- 238000004519 manufacturing process Methods 0.000 abstract description 5
- 238000005520 cutting process Methods 0.000 abstract description 4
- 238000000926 separation method Methods 0.000 description 17
- 230000002787 reinforcement Effects 0.000 description 14
- 229910000831 Steel Inorganic materials 0.000 description 7
- 239000010959 steel Substances 0.000 description 7
- 230000005622 photoelectricity Effects 0.000 description 5
- 238000010276 construction Methods 0.000 description 3
- 238000010586 diagram Methods 0.000 description 3
- 238000009434 installation Methods 0.000 description 2
- 230000007115 recruitment Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000006835 compression Effects 0.000 description 1
- 238000007906 compression Methods 0.000 description 1
- 238000009826 distribution Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21F—WORKING OR PROCESSING OF METAL WIRE
- B21F1/00—Bending wire other than coiling; Straightening wire
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21F—WORKING OR PROCESSING OF METAL WIRE
- B21F1/00—Bending wire other than coiling; Straightening wire
- B21F1/02—Straightening
- B21F1/026—Straightening and cutting
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21F—WORKING OR PROCESSING OF METAL WIRE
- B21F11/00—Cutting wire
Abstract
The present invention discloses a kind of full-automatic hooping double wire machine, it is made up of two motors, two clutch-brake groups, a clutch, two decelerators, nine road circuit controls, two clutch-brake groups drive two reductors, 1# gears, traction wheel and bending machine push pedal, shearing cutter head push pedal alternation respectively.Two clutch-brake groups position optoelectronic switch by 1# Long degree respectively, 2# Long degree positions optoelectronic switch, 3# Long degree positions optoelectronic switch, 4# Long degree positions optoelectronic switch, 5# Long degree positions optoelectronic switch and angle positions optoelectronic switch to control, straightening, the feeding of reinforcing bar are completed, bending, cutting, departs from stirrup manufacturing procedure.The present invention realizes a tractor serves several purposes, has reached seriation, the automation of stirrup shaping.The present invention in process, only needs a people, and manufacturing procedure is automatically performed.Operating efficiency is 18 20 times of man efficiency.
Description
Technical field
The invention belongs to a kind of special equipment of building bar stirrup processing.Specifically refer to a kind of full-automatic rectangle hoop
Double wire machine.
Background technology
In building engineering construction, stirrup is the important component of reinforced beam, post, existing in construction site
Steel wire binding bar processing machine is semi-mechanization, and stirrup makes recruitment, account for reinforcement fabrication recruitment more than half;And stirrup makes still
To complete by hand, it is big labor intensity to be therebetween present, and it is nonstandard to waste steel, specification, ropy problem, can not meet and builds
Build the needs of industry development.
The content of the invention
In view of the shortcomings of the prior art, it is an object of the invention to provide a kind of full-automatic hooping double wire machine.The machine passes through
Bar straightening, traction, bending, cut, stirrup five processes of disengaging, once complete two finished product stirrups processing, all realize certainly
Dynamicization, so as to solve the problems, such as that stirrup is of poor quality, labor intensity is big, improve steel wire binding bar operating efficiency, saved steel,
Reduce construction cost.
The purpose of the present invention is to be achieved through the following technical solutions:
A kind of full-automatic hooping double wire machine, mainly by 1# reinforced catheters, frame, protective cover, 2# reinforced catheters, shear knife
Head, bending machine, shaping axle, bending set, casing, muscle wheel is worn in 1# straightening, muscle wheel is worn in 2# straightening, straightening wheel group, traction wheel, compression
Wheel, 1# straightening take off muscle wheel, 2# straightening takes off muscle wheel, straightening bottom plate, bending machine push pedal, shearing cutter head push pedal, 1# reductors, 1# from
Close brake group, 1# motor, 1# gears, 2# gears, clutch, the low frequency control optoelectronic switches of 1#, the high frequency controls of 2#
Optoelectronic switch, 2# reductors, 2# clutch-brakes group, 2# motor, 1# length positionings optoelectronic switch, 2# length positioning photoelectricity are opened
Pass, 3# length positionings optoelectronic switch, 4# length positionings optoelectronic switch, 5# length positionings optoelectronic switch, 1# inductive switchings plate, 2# are opened
Close tablet, 3# inductive switchings plate, 4# inductive switchings plate, 5# inductive switchings plate, angle positioning optoelectronic switch, 6# inductive switching plates
Composition, it is characterized in that protective cover parcel 1# reinforced catheters, muscle wheel is worn in 1# straightening, muscle wheel is worn in 2# straightening, straightening wheel group, traction wheel,
Contact roller, 1# straightening take off muscle wheel and 2# straightening takes off muscle wheel, and 1# reinforced catheters, 1# straightening wear muscle wheel, muscle wheel, straightening wheel are worn in 2# straightening
Group, traction wheel, contact roller, the de- muscle wheel of 1# straightening and 2# straightening take off muscle wheel and are separately mounted on straightening bottom plate.Straightening bottom plate is fixed
In frame;2# reinforced catheters, shearing cutter head, bending machine, bending machine push pedal and shearing cutter head push pedal are separately mounted on casing,
Bending machine push pedal is connected with shearing cutter head push pedal.Bending machine push pedal promotes bending machine rotation, and shearing cutter head push pedal promotes shearing
Cutter head is rotated, and casing is fixed in frame;1# motor, 1# clutch-brakes group, 1# reductors, 1# gears are connected with traction wheel
Connect;1# gears drive 2# gears, the low frequency control optoelectronic switch of 2# gears, clutch, 1#, the high frequency control optoelectronic switches of 2#
Opened with 1# length positionings optoelectronic switch, 2# length positionings optoelectronic switch, 3# length positionings optoelectronic switch, 4# length positioning photoelectricity
Close, 5# length positioning optoelectronic switches are connected;2# motor, 2# clutch-brakes group, 2# reductors, 6# inductive switchings plate, 1#
Inductive switching plate, 2# inductive switchings plate, 3# inductive switchings plate, 4# inductive switchings plate, 5# inductive switchings plate, bending machine push pedal, cut
Cutting knife head push pedal is connected, and angle positioning optoelectronic switch is fixed in frame, 1# length positionings optoelectronic switch, 2# length positioning light
Electric switch, 3# length positionings optoelectronic switch, 4# length positionings optoelectronic switch, 5# length positionings optoelectronic switch and 1# inductive switchings
Plate, 2# inductive switchings plate, 3# inductive switchings plate, 4# inductive switchings plate, 5# inductive switchings plate meet sensing respectively, 6# inductive switchings
Sensing that plate rotates and angle positioning optoelectronic switch meets.
Advantages of the present invention and generation beneficial effect are:
The machine is by two motors, two clutch-brake groups, a clutch, two decelerators, nine road circuit controls
Composition, two clutch-brake groups drive two reductors, 1# gears, traction wheel and bending machine push pedal, shearing cutter head to push away respectively
Plate alternation.Two clutch-brake groups are respectively by 1# length positionings optoelectronic switch, 2# length positionings optoelectronic switch, 3# length
Positioning optoelectronic switch, 4# length positionings optoelectronic switch, 5# length positionings optoelectronic switch and angle position optoelectronic switch to control, complete
Straightening, feeding into reinforcing bar, bending, cutting, depart from stirrup manufacturing procedure.The machine continuously exchanges work five times, two rectangles
Finished product stirrup machines.When processing the reinforcing bar of different model, bending set, adjustment shearing cutter head need to be only changed.Processing
Adjusted during the stirrup of different size 1# length positionings optoelectronic switches, 2# length positionings optoelectronic switch, 3# length positionings optoelectronic switch,
The angle of 4# length positionings optoelectronic switch, 5# length positioning optoelectronic switches.A tractor serves several purposes is realized, has reached stirrup shaping
Seriation, automation.The present invention in process, only needs a people, and manufacturing procedure is automatically performed.Operating efficiency is people's work efficiency
18-20 times of rate.
Brief description of the drawings
Fig. 1 is the structural representation of the present invention.
Fig. 2 is that Fig. 1 removes protective cover and Box Cover schematic diagram.
Fig. 3 is Fig. 1 top view.
Fig. 4 be Fig. 3 A-A to schematic diagram.
Fig. 5 is the circuit diagram of the present invention.
Embodiment
The present invention is further described again below in conjunction with the accompanying drawings:
As Figure 1-5, a kind of full-automatic hooping double wire machine, mainly by 1# reinforced catheters 1, frame 2, protective cover 3,2#
Reinforced catheter 4, shearing cutter head 5, bending machine 6, shaping axle 7, bending set 8, casing 9, muscle wheel 10 is worn in 1# straightening, muscle is worn in 2# straightening
Wheel 11, straightening wheel group 12, traction wheel 13, contact roller 14,1# straightening take off muscle wheel 15, the de- muscle wheel 16 of 2# straightening, straightening bottom plate 17, folding
Curved device push pedal 18, shearing cutter head push pedal 19,1# decelerators 20,1# clutch-brakes group 21,1# motor 22,1# gears 23,
The low frequency control optoelectronic switch 26 of 2# gears 24, clutch 25,1#, the high frequency control optoelectronic switches 27 of 2#, 2# decelerators 28,
2# clutch-brakes group 29,2# motor 30,1# length positionings optoelectronic switch 31,2# length positionings optoelectronic switch 32,3# length
Positioning optoelectronic switch 33,4# length positionings optoelectronic switch 34,5# length positionings optoelectronic switch 35,1# inductive switchings plate 36,2# are opened
Close tablet 37,3# inductive switchings plate 38,4# inductive switchings plate 39,5# inductive switchings plate 40, angle positioning optoelectronic switch 41,6#
Inductive switching plate 42 forms.The lower section of frame 2 is equipped with distribution box, has circuit to control workbench in front of complete machine.Protective cover 3 wraps up 1# steel
Muscle conduit 1,1# straightening wear muscle wheel 10, muscle wheel 11 is worn in 2# straightening, straightening wheel group 12, traction wheel 13, contact roller 14,1# straightening take off muscle
Take turns 15 and 2# straightening and take off muscle wheel 16,1# reinforced catheters 1,1# straightening wear muscle wheel 10, muscle wheel 11 is worn in 2# straightening, straightening wheel group 12, lead
Running wheel 13, contact roller 14,1# straightening takes off muscle wheel 15 and 2# straightening takes off muscle wheel 16 and is separately mounted on straightening bottom plate 17.Straightening bottom plate
17 are fixed in frame 2;Before start, protective cover 3 can be opened;Through behind position, protective cover 3 covers reinforcing bar.2# reinforced catheters 4,
Shearing cutter head 5, bending machine 6, bending machine push pedal 18 and shearing cutter head push pedal 19 are separately mounted on casing 9.Casing 9 is fixed on machine
On frame 2.6# angles positioning optoelectronic switch 42 is fixed in frame 2.
The shaping of stirrup divides straightening, traction, bending, cutting, stirrup to depart from five processes:
Before start, after reinforcing bar passes through 1# reinforced catheters 1, muscle wheel 10 is worn in 1# straightening, muscle wheel 11 is worn in 2# straightening, compress 2# and adjust
Yong Oscillating sending reinforcing bar in traction wheel 13 and contact roller 14, compressing contact roller 14 can start shooting the , of direct puncture muscle wheel 11.1# after start
Motor 22 and 2# motor 30 run well, 1# clutch-brakes group 21 and the alternation of 2# clutch-brakes group 29.
First time straightening, traction process
The clutch of 1# clutch-brakes group 21 combines, and brake separation, drives 1# reductors 20,1# gears 23,2# gears
24th, traction wheel 13 rotates.By straightening wheel group 12(Straightening:Using straight line minute mark straightening method), by traction wheel 13 and contact roller 14
Reinforcing bar is sent into bending machine 6.2# gears 24 drive clutch 25, clutch 25 and the clutch in 1# clutch-brakes group 21 simultaneously
Device works asynchronously, and drives the low frequency control optoelectronic switches 26 of 1#, the high frequency control optoelectronic switches 27 of 2#, 1# length positioning photoelectricity to open
31,2# length positionings optoelectronic switch 32,3# length positionings optoelectronic switch 33,4# length positionings optoelectronic switch 34,5# length is closed to determine
Position optoelectronic switch 35 rotates.Wherein, met when 1# length positionings optoelectronic switch 31 rotates to 1# inductive switching 36 positions of plate sensing,
When i.e. reinforcing bar is to specific length, the clutch separation of 1# clutch-brakes group 21, brake are made by circuit contactor.Clutch
Device 25 separates, meanwhile, the high frequency control optoelectronic switches 27 of 2# and 1# inductive switchings plate 36 meet sensing.Made by circuit contactor
The 2# motor 30 of installation frequency converter are run at high speed by low speed rotation, accelerate the bending speed of next step reinforcing bar.First time reinforcing bar
Straightening, feeding are completed.The low frequency control optoelectronic switches 26 of 1#, the high frequency control optoelectronic switches 27 of 2#, 1# length positioning photoelectricity are opened
31,2# length positionings optoelectronic switch 32,3# length positionings optoelectronic switch 33,4# length positionings optoelectronic switch 34,5# length is closed to determine
Position optoelectronic switch 35, by spring reset.
First time bending process
After the completion of first time reinforcing bar feeding, straightening, the clutch knot of 2# clutch-brakes group 29 is made by circuit contactor
Close, brake separation, drive 2# reductors 28,6# inductive switchings plate 42,1# inductive switchings plate 36,2# inductive switchings plate 37,3#
Inductive switching plate 38,4# inductive switchings plate 39,5# inductive switchings plate 40, bending machine push pedal 18, shearing cutter head push pedal 19 rotate.Folding
Curved device push pedal 18 promotes bending machine 6, bending set 8 is housed by bending reinforcement on bending machine 6, meanwhile, 6# inductive switchings plate 42 rotates
During to 72.5 ° of angle(I.e. bending machine bending angle is 147 °, and angle is 135 ° after reinforcing bar resilience), and angle positioning optoelectronic switch
41 meet sensing.Meanwhile 2# inductive switchings plate 37 is rotated to the straight line of 2# decelerators 28 and the central point of clutch 25.For the first time
Bending reinforcement is completed.Bending machine 6 resets.2# clutch-brake groups are made by circuit contactor(29)Clutch separation, braking
Device is braked.
Second of straightening, traction process:
After the completion of first time bending reinforcement, combine the clutch of 1# clutch-brakes group 21 by circuit contactor, system
Dynamic device separation, drives 1# reductors 20,1# gears 23,2# gears 24, traction wheel 13 to rotate.By straightening wheel group 12, by drawing
Wheel 13 and contact roller 14 are sent into reinforcing bar in bending machine 6.2# gears 24 drive clutch 25, clutch 25 and 1# clutch systems simultaneously
Clutch synchronization work in dynamic device group 21, drive the low frequency control optoelectronic switches 26 of 1#, the high frequency control optoelectronic switches 27 of 2#,
1# length positionings optoelectronic switch 31,2# length positionings optoelectronic switch 32,3# length positionings optoelectronic switch 33,4# length positioning photoelectricity
Switch 34,5# length positionings optoelectronic switch 35 rotate.Wherein, 2# length positionings optoelectronic switch 32 rotates to 2# inductive switchings plate 37
Met during position sensing, i.e., when reinforcing bar is to specific length, the clutch separation of 1# clutch-brakes group 21 made by circuit contactor,
Brake, clutch 25 are separated, and second of bar straightening, feeding are completed.The low frequency control optoelectronic switches 26 of 1#, 2# are high to be become
Frequency modulation speed optoelectronic switch 27,1# length positionings optoelectronic switch 31,2# length positionings optoelectronic switch 32,3# length positioning optoelectronic switches
33rd, 4# length positionings optoelectronic switch 34,5# length positionings optoelectronic switch 35, by spring reset.
Second of bending process:
After the completion of second of bar straightening, feeding, the clutch knot of 2# clutch-brakes group 29 is made by circuit contactor
Close, brake separation, drive 2# reductors 28,6# inductive switchings plate 42,1# inductive switchings plate 36,2# inductive switchings plate 37,3#
Inductive switching plate 38,4# inductive switchings plate 39,5# inductive switchings plate 40, bending machine push pedal 18, shearing cutter head push pedal 19 rotate.Folding
Curved device push pedal 18, bending machine 6 is promoted, by bending reinforcement, meanwhile, when 6# inductive switchings plate 42 rotates to 54.5 ° of angle(That is bending
Device bending angle is 100 °, and angle is 90 ° after reinforcing bar resilience), and angle positioning optoelectronic switch 41 meets sensing.Meanwhile 3# is opened
Close tablet 38 to rotate to the straight line of 2# decelerators 28 and the central point of clutch 25, second of bending reinforcement is completed.Bending machine
6 reset.The clutch separation of 2# clutch-brakes group 29, brake are made by circuit contactor.
Third time straightening, traction process:
After the completion of second of bending reinforcement, combine the clutch of 1# clutch-brakes group 21 by circuit contactor, system
Dynamic device separation, drives 1# reductors 20,1# gears 23,2# gears 24, traction wheel 13 to rotate.By straightening wheel group 12, by drawing
Wheel 13 and contact roller 14 are sent into reinforcing bar in bending machine 6.2# gears 24 drive clutch 25, clutch 25 and 1# clutch systems simultaneously
Clutch synchronization work in dynamic device group 21, drive the low frequency control optoelectronic switches 26 of 1#, the high frequency control optoelectronic switches 27 of 2#,
1# length positionings optoelectronic switch 31,2# length positionings optoelectronic switch 32,3# length positionings optoelectronic switch 33,4# length positionings
Optoelectronic switch 34,5# length positionings optoelectronic switch 35 rotate.Wherein, 3# length positionings optoelectronic switch 33 rotates to 3# switch senses
Met when answering 38 position of plate sensing, i.e., when reinforcing bar is to specific length, the clutch of 1# clutch-brakes group 21 is made by circuit contactor
Device is separated, and brake, clutch 25 separate, and third time bar straightening, feeding are completed.The low frequency control optoelectronic switches of 1#
26th, the high frequency control optoelectronic switches 27 of 2#, 1# length positionings optoelectronic switch 31,2# length positionings optoelectronic switch 32,3# length
Optoelectronic switch 33,4# length positionings optoelectronic switch 34,5# length positionings optoelectronic switch 35 are positioned, by spring reset.
Third time bending process:
After the completion of third time bar straightening, feeding, the clutch knot of 2# clutch-brakes group 29 is made by circuit contactor
Close, brake separation, drive 2# reductors 28,6# inductive switchings plate 42,1# inductive switchings plate 36,2# inductive switchings plate 37,3#
Inductive switching plate 38,4# inductive switchings plate 39,5# inductive switchings plate 40, bending machine push pedal 18, shearing cutter head push pedal 19 rotate.Folding
Curved device push pedal 18 promotes bending machine 6 by bending reinforcement, meanwhile, when 6# inductive switchings plate 42 rotates to 54.5 ° of angle(That is bending machine
Bending angle is 100 °, and angle is 90 ° after reinforcing bar resilience), and angle positioning optoelectronic switch 41 meets sensing.Meanwhile 4# is switched
Tablet(39)On rotation to the straight line of 2# decelerators 28 and the central point of clutch 25, third time bending reinforcement is completed.Bending machine
6 reset.The clutch separation of 2# clutch-brakes group 29, brake are made by circuit contactor.
4th straightening, traction process
After the completion of third time bending reinforcement, combine the clutch of 1# clutch-brakes group 21 by circuit contactor, system
Dynamic device separation, drives 1# reductors 20,1# gears 23,2# gears 24, traction wheel 13 to rotate.By straightening wheel group 12, by drawing
Wheel 13 and contact roller 14 are sent into reinforcing bar in bending machine 6.2# gears 24 drive clutch 25, clutch 25 and 1# clutch systems simultaneously
Clutch synchronization work in dynamic device group 21, drive the low frequency control optoelectronic switches 26 of 1#, the high frequency control optoelectronic switches 27 of 2#,
1# length positionings optoelectronic switch 31,2# length positionings optoelectronic switch 32,3# length positionings optoelectronic switch 33,4# length positionings
Optoelectronic switch 34,5# length positionings optoelectronic switch 35 rotate.Wherein, 4# length positionings optoelectronic switch 34 rotates to 4# switch senses
Met when answering 39 position of plate sensing, i.e., when reinforcing bar is to specific length, the clutch of 1# clutch-brakes group 21 is made by circuit contactor
Device separates, brake.3# clutches 25 separate, meanwhile, the low frequency control optoelectronic switches 26 of 1# and 4# inductive switchings plate 36
Meet sensing.The 2# motor 30 of installation frequency converter are made to make next step reinforcing bar by turning low-speed running at a high speed by circuit contactor
Bending speed slow down.4th bar straightening, feeding are completed.The low frequency control optoelectronic switches 26 of 1#, the high frequency control light of 2#
Electric switch 27,1# length positionings optoelectronic switch 31,2# length positionings optoelectronic switch 32,3# length positionings optoelectronic switch 33,4#
Length positioning optoelectronic switch 34,5# length positionings optoelectronic switch 35, by spring reset.
4th bending process
After the completion of the 4th bar straightening, feeding, the clutch knot of 2# clutch-brakes group 29 is made by circuit contactor
Close, brake separation, drive 2# reductors 28,6# inductive switchings plate 42,1# inductive switchings plate 36,2# inductive switchings plate 37,3#
Inductive switching plate 38,4# inductive switchings plate 39,5# inductive switchings plate 40, bending machine push pedal 18, shearing cutter head push pedal 19 rotate.Folding
Curved device push pedal 18, bending machine 6 is promoted, by bending reinforcement, meanwhile, when 6# inductive switchings plate 42 rotates to 54.5 ° of angle(Roll over
Curved device bending angle is 100 °, and angle is 90 ° after reinforcing bar resilience), and angle positioning optoelectronic switch 41 meets sensing.Meanwhile 5#
Inductive switching plate 40 is rotated to the straight line of 2# decelerators 28 and the central point of clutch 25, and the 4th time bending reinforcement is completed.Bending
Device 6 resets.The clutch separation of 2# clutch-brakes group 29, brake are made by circuit contactor.
5th straightening, traction process
After the completion of the 4th bending reinforcement, combine the clutch of 1# clutch-brakes group 21 by circuit contactor, system
Dynamic device separation, drives 1# reductors 20,1# gears 23,2# gears 24, traction wheel 13 to rotate.By straightening wheel group 12, by drawing
Wheel 13 and contact roller 14 are sent into reinforcing bar in bending machine 6.2# gears 24 drive clutch 25, clutch 25 and 1# clutch systems simultaneously
Clutch synchronization work in dynamic device group 21, drive the low frequency control optoelectronic switches 26 of 1#, the high frequency control optoelectronic switches 27 of 2#,
1# length positionings optoelectronic switch 31,2# length positionings optoelectronic switch 32,3# length positionings optoelectronic switch 33,4# length positionings
Optoelectronic switch 34,5# length positionings optoelectronic switch 35 rotate.Wherein, 5# length positionings optoelectronic switch 35 rotates to 5# switch senses
Met when answering 40 position of plate sensing, i.e., when reinforcing bar is to specific length, the clutch of 1# clutch-brakes group 21 is made by circuit contactor
Device is separated, and brake, clutch 25 separate, and the 5th bar straightening, feeding are completed.The low frequency control optoelectronic switches of 1#
26th, the high frequency control optoelectronic switches 27 of 2#, 1# length positionings optoelectronic switch 31,2# length positionings optoelectronic switch 32,3# length
Optoelectronic switch 33,4# length positionings optoelectronic switch 34,5# length positionings optoelectronic switch 35 are positioned, by spring reset.
5th bending, shearing, depart from process:
The clutch knot of 2# clutch-brakes group 29 is made by circuit contactor after the completion of the 5th bar straightening, feeding
Close, brake separation, drive 2# reductors 28,6# inductive switchings plate 42,1# inductive switchings plate 36,2# inductive switchings plate 37,3#
Inductive switching plate 38,4# inductive switchings plate 39,5# inductive switchings plate 40, bending machine push pedal 18, shearing cutter head push pedal 19 rotate.Folding
Curved device push pedal 18 promotes bending machine 6, and after bending reinforcement, shearing cutter head push pedal 19 promotes shearing cutter head 5 that reinforcing bar is cut, into
Profile shaft 7 is withdrawn, and finished product stirrup automatically disengages, two rectangle hoop shapings.Meanwhile 6# inductive switchings plate 42 rotates to 124 ° of angle
When(I.e. bending machine bending angle is 147 °, and angle is 135 ° after reinforcing bar resilience), and angle positioning optoelectronic switch 41 meets sensing.
Meanwhile 1# inductive switchings plate 36 is rotated to the straight line of 2# decelerators 28 and the central point of clutch 25, bending machine 6 resets.It is logical
Oversampling circuit contactor makes the clutch separation of 2# clutch-brakes group 29, brake.So continuous work, is constantly produced into
Product stirrup.After whole disk steel bar meter is complete, after steel bar end crosses traction wheel 13, remaining clout takes off muscle wheel 15 by 1# straightening and 2# is adjusted
Directly de- muscle wheel 16 is shaken out with crank.
Claims (1)
- A kind of 1. full-automatic hooping double wire machine, mainly by 1# reinforced catheters(1), frame(2), protective cover(3), 2# reinforced catheters (4), shearing cutter head(5), bending machine(6), shaping axle(7), bending set(8), casing(9), 1# straightening wear muscle wheel(10), 2# adjust Direct puncture muscle wheel(11), straightening wheel group(12), traction wheel(13), contact roller(14), 1# straightening take off muscle wheel(15), 2# straightening take off muscle wheel (16), straightening bottom plate(17), bending machine push pedal(18), shearing cutter head push pedal(19), 1# reductors(20), 1# clutch-brakes Group(21), 1# motor(22), 1# gears(23), 2# gears(24), clutch(25), the low frequency control optoelectronic switches of 1# (26), the high frequency control optoelectronic switches of 2#(27), 2# reductors(28), 2# clutch-brake groups(29), 2# motor(30)、 1# length positioning optoelectronic switches(31), 2# length positioning optoelectronic switches(32), 3# length positioning optoelectronic switches(33), 4# length determines Position optoelectronic switch(34), 5# length positioning optoelectronic switches(35), 1# inductive switching plates(36), 2# inductive switching plates(37), 3# opens Close tablet(38), 4# inductive switching plates(39), 5# inductive switching plates(40), angle positioning optoelectronic switch(41), 6# switch sense Answer plate(42)Composition, it is characterized in that protective cover(3)Muscle wheel is worn in parcel 1# reinforced catheters (1), 1# straightening(10), 2# straightening wear muscle wheel (11), straightening wheel group(12), traction wheel(13), contact roller(14), 1# straightening take off muscle wheel(15)Muscle wheel is taken off with 2# straightening(16), 1# Muscle wheel is worn in reinforced catheter (1), 1# straightening(10), 2# straightening wear muscle wheel(11), straightening wheel group(12), traction wheel(13), contact roller (14), 1# straightening take off muscle wheel(15)Muscle wheel is taken off with 2# straightening(16)It is separately mounted to straightening bottom plate(17)On;Straightening bottom plate(17) It is fixed on frame(2)On;2# reinforced catheters (4), shearing cutter head(5), bending machine(6), bending machine push pedal(18)And shearing cutter head Push pedal(19)It is separately mounted to casing(9)On, bending machine push pedal(18)With shearing cutter head push pedal(19)It is connected;Bending machine push pedal (18)Promote bending machine(6)Rotation, shearing cutter head push pedal(19)Promote shearing cutter head(5)Rotation, casing(9)It is fixed on frame (2)On;1# motor(22), 1# clutch-brake groups(21), 1# reductors(20), 1# gears(23)And traction wheel(13)It is connected Connect;1# gears(23)Drive 2# gears(24), 2# gears(24), clutch(25), the low frequency control optoelectronic switches of 1#(26)、2# High frequency control optoelectronic switch(27)With 1# length positioning optoelectronic switches(31), 2# length positioning optoelectronic switches(32), 3# length Position optoelectronic switch(33), 4# length positioning optoelectronic switches(34), 5# length positioning optoelectronic switches(35)It is connected;2# motor (30), 2# clutch-brake groups(29), 2# reductors(28), 6# inductive switching plates(42), 1# inductive switching plates(36), 2# opens Close tablet(37), 3# inductive switching plates(38), 4# inductive switching plates(39), 5# inductive switching plates(40), bending machine push pedal (18), shearing cutter head push pedal(19)It is connected, angle positioning optoelectronic switch(41)It is fixed on frame(2)On, 1# length positioning light Electric switch(31), 2# length positioning optoelectronic switches(32), 3# length positioning optoelectronic switches(33), 4# length positioning optoelectronic switches (34), 5# length positioning optoelectronic switches(35)With 1# inductive switching plates(36), 2# inductive switching plates(37), 3# inductive switching plates (38), 4# inductive switching plates(39), 5# inductive switching plates(40)Meet respectively sensing, 6# inductive switching plates(42)Rotation and angle Position optoelectronic switch(41)Meet sensing.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610873163.XA CN106270291B (en) | 2016-10-08 | 2016-10-08 | Full-automatic hooping double wire machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610873163.XA CN106270291B (en) | 2016-10-08 | 2016-10-08 | Full-automatic hooping double wire machine |
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FR1457786A (en) * | 1965-10-29 | 1966-11-04 | Automatic machine for forming rebars | |
CN2788930Y (en) * | 2005-04-21 | 2006-06-21 | 许友富 | Hooping bending machine with adjustable bending angle |
CN201020502Y (en) * | 2007-02-28 | 2008-02-13 | 柳晓峰 | Full-automatic hydraulic reinforcing steel bar hoop bender |
CN201404999Y (en) * | 2009-02-12 | 2010-02-17 | 吴运友 | Linear motor type automatic hooping bender |
CN101767167A (en) * | 2010-01-08 | 2010-07-07 | 绍兴文理学院 | Full-automatic numerical-control hydraulic reinforcing-steel hoop bending machine |
CN202037273U (en) * | 2011-02-09 | 2011-11-16 | 顾宝国 | Reinforced bar hoop bending machine |
CN202137293U (en) * | 2011-04-25 | 2012-02-08 | 吴楚帆 | Control system of reinforcing steel bar hoop bending machine |
CN206229933U (en) * | 2016-10-08 | 2017-06-09 | 王振华 | Full-automatic hooping machine |
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