CN109732234A - A kind of aperture steel mesh production method and device - Google Patents
A kind of aperture steel mesh production method and device Download PDFInfo
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- CN109732234A CN109732234A CN201910183683.1A CN201910183683A CN109732234A CN 109732234 A CN109732234 A CN 109732234A CN 201910183683 A CN201910183683 A CN 201910183683A CN 109732234 A CN109732234 A CN 109732234A
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- 229910000831 Steel Inorganic materials 0.000 title claims abstract description 166
- 239000010959 steel Substances 0.000 title claims abstract description 166
- 238000004519 manufacturing process Methods 0.000 title claims abstract description 32
- 210000003205 muscle Anatomy 0.000 claims abstract description 174
- 238000003466 welding Methods 0.000 claims abstract description 106
- 238000000034 method Methods 0.000 claims abstract description 42
- 230000008569 process Effects 0.000 claims description 35
- 238000013461 design Methods 0.000 claims description 4
- 238000009826 distribution Methods 0.000 claims description 3
- 230000003014 reinforcing effect Effects 0.000 abstract description 13
- 239000000463 material Substances 0.000 abstract description 5
- 239000002699 waste material Substances 0.000 abstract description 4
- 239000012467 final product Substances 0.000 abstract description 3
- 230000007246 mechanism Effects 0.000 description 8
- 238000010276 construction Methods 0.000 description 5
- 230000007547 defect Effects 0.000 description 5
- 238000005259 measurement Methods 0.000 description 5
- 238000012546 transfer Methods 0.000 description 5
- 210000000080 chela (arthropods) Anatomy 0.000 description 4
- 238000010586 diagram Methods 0.000 description 4
- 230000005484 gravity Effects 0.000 description 4
- 238000010008 shearing Methods 0.000 description 4
- 239000000243 solution Substances 0.000 description 4
- 238000009966 trimming Methods 0.000 description 4
- 230000009286 beneficial effect Effects 0.000 description 3
- 238000011161 development Methods 0.000 description 3
- 239000004744 fabric Substances 0.000 description 3
- 230000009471 action Effects 0.000 description 2
- 238000006073 displacement reaction Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 230000033001 locomotion Effects 0.000 description 2
- 238000012797 qualification Methods 0.000 description 2
- 206010054949 Metaplasia Diseases 0.000 description 1
- 206010057071 Rectal tenesmus Diseases 0.000 description 1
- 230000006978 adaptation Effects 0.000 description 1
- 238000010923 batch production Methods 0.000 description 1
- 230000000903 blocking effect Effects 0.000 description 1
- 230000008859 change Effects 0.000 description 1
- 238000004070 electrodeposition Methods 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 238000002347 injection Methods 0.000 description 1
- 239000007924 injection Substances 0.000 description 1
- 238000011031 large-scale manufacturing process Methods 0.000 description 1
- 230000015689 metaplastic ossification Effects 0.000 description 1
- 238000000465 moulding Methods 0.000 description 1
- 239000000047 product Substances 0.000 description 1
- 230000002787 reinforcement Effects 0.000 description 1
- 238000005496 tempering Methods 0.000 description 1
- 208000012271 tenesmus Diseases 0.000 description 1
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 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
- B21F27/00—Making wire network, i.e. wire nets
- B21F27/12—Making special types or portions of network by methods or means specially adapted therefor
- B21F27/20—Making special types or portions of network by methods or means specially adapted therefor of plaster-carrying network
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21F—WORKING OR PROCESSING OF METAL WIRE
- B21F27/00—Making wire network, i.e. wire nets
- B21F27/08—Making wire network, i.e. wire nets with additional connecting elements or material at crossings
- B21F27/10—Making wire network, i.e. wire nets with additional connecting elements or material at crossings with soldered or welded crossings
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
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Abstract
The invention discloses a kind of aperture steel mesh production method and devices, are related to steel mesh production technical field.Device includes Welding machine of steel wire mesh, and Welding machine of steel wire mesh includes enterprising muscle mouth, is located at the top of Welding machine of steel wire mesh;Into muscle mouth under and, it is located on front side of Welding machine of steel wire mesh;And guide rail, it is stretched out from Welding machine of steel wire mesh front end two sides horizontal parallel;And moving parts, it is movably arranged on guide rail;Under into muscle mouth include it is several into muscle pipe and with into muscle pipe several front side guide pipes correspondingly;Front side guide pipe is all set on moving parts.When production first setting front side guide pipe with into muscle tube spacing and reinforcing bar charging rate, then it is sent into horizontal bar and longitudinal rib according to particular order, qualified aperture steel mesh can be directly produced using this method, be not necessarily to secondary operation, relative to traditional approach high production efficiency, no additional energy;Default hole site accurate positioning;Preset hole neat in edge, final product quality are high;And it not will cause waste of material.
Description
Technical field
The present invention relates to steel mesh production technical field, specifically a kind of aperture steel mesh production method and device.
Background technique
Steel mesh is also known as: steel bar welding deeping, welded steel fabric, welded steel fabric, steel bar welding net, reinforced mesh etc..It is
Longitudinal reinforcement and transverse steel with certain spacing arrangement and are mutually right angle, the net that whole crosspoints weld together respectively
Piece.Steel mesh is in China using still in its infancy, and the ratio of steel axis force shared by China's application amount is less than ten at present
/ mono-.In the early 1990s, steel mesh just by State Scientific and Technological Commission, the Ministry of Construction is classified as key popularized project, and state is formulated
Family standard, regulation.The infrastructure in China have developed rapidly, investment sustainable growth of the country to infrastructure;Implement Western Great Development
The strategy of hair.National economic development enters the new stage, and the capital construction such as the energy, traffic, water conservancy, house and municipal works are to reinforcing bar
The demand of net will be doubled and redoubled.Its market application prospect is boundless;Steel mesh is suitble to batch production, large-scale production, is effect
Beneficial new industry that is high, meeting environmental protection requirement, adaptation construction industry industrialization development trend.
In part during engineering capital construction, need using the steel mesh for having preset hole, to facilitate construction.Common reinforcing bar
Net generally uses dedicated welding machine of mesh welding production, and welding procedure is automatically controlled by a computer production, and welding mesh is uniform, weldering
Connect that quality is good, the mechanical property of welding front and back reinforcing bar has almost no change.And aperture steel mesh is usually to weld in steel mesh
After molding, it is cut into preset hole in corresponding position using gas flame cuttiug mode, this mode will cause reinforcing bar tempering, influence reinforcing bar
Intensity, while it is higher to consume energy;Or reinforcing bar pincers shearing, large labor intensity, low efficiency;And there is trimming in two kinds of production methods
Uneven, the short ruler reinforcing bar cut can not secondary use the defects of causing waste of material.
Through retrieving, Chinese patent, application number: 201510776188.3, data of publication of application: 2017.05.31 discloses one
The aperture transverse bar positioning device of kind welding aperture reinforced mesh, structure includes: multiple conveying mechanisms, transfer device, lower welding
Electrode and upper welding electrode;Transfer device is located between conveying mechanism and lower welding electrode;Respectively corresponding aperture reinforced mesh
In aperture transverse bar position conveying mechanism on place aperture transverse bar, along aperture transverse bar conveying direction to transfer device convey aperture
Transverse bar;After transfer device is connected to aperture transverse bar, then aperture transverse bar is all transferred to weld on lower welding electrode with vertical muscle to be formed
Aperture reinforced mesh.The invention is orderly coordinated under control system control by conveying mechanism, transfer device, on welding machine of mesh certainly
The aperture reinforced mesh of dynamic metaplasia output qualification, but the invention solves only the orientation problem of transverse bar, can not carry out to vertical muscle
Effective position when practical application, still needs special charging method to carry out manual control, cannot achieve accurate positionin.
Summary of the invention
Technical problems to be solved by the inivention
It will affect reinforced steel bar strength for use gas flame cuttiug in the prior art or cut mode production aperture steel mesh, cut
The problem of the defects of side is uneven, the present invention provides a kind of aperture steel mesh production method and device, the front side in device is oriented to
Pipe is arranged on the moving part, is pre-positioned preset hole longitudinal width by adjusting moving parts, while steel mesh welding is arranged
The conveying speed of reinforcing bar in machine successively operates horizontal bar and longitudinal rib feeding further in accordance with specific feeding sequence, is able to achieve utilization
Welding machine of steel wire mesh directly produces qualified aperture steel mesh, secondary operation is not necessarily to, relative to traditional gas flame cuttiug or steel
The defects of muscle pincers shearing, high production efficiency, no additional energy preset hole site accurate positioning, uneven there is no trimming, Cheng Pinzhi
Amount greatly improves;And it not will cause waste of material.
Technical solution
To solve the above problems, technical solution provided by the invention are as follows:
A kind of aperture steel mesh production method, there are preset holes in the middle part of the aperture steel mesh, if by being parallel to each other
Dry horizontal bar and several longitudinal ribs being parallel to each other are mutually right angle welding and form, and the horizontal bar is short including the long muscle of transverse direction, transverse direction
Muscle A and laterally short muscle B, the longitudinal rib include longitudinal long muscle, longitudinal short muscle A, longitudinal short muscle B and longitudinal short muscle C, the aperture
Steel mesh is welded by Welding machine of steel wire mesh, method and step are as follows:
One, Welding machine of steel wire mesh is debugged:
I, preset in the Welding machine of steel wire mesh according to the longitudinal width of the preset hole front side guide pipe with into muscle pipe it
Between distance, guarantee the distance be the preset hole longitudinal width;
II, the conveying speed that horizontal bar and longitudinal rib are preset according to the mesh size of steel mesh;Conveying speed at this
Degree is conveying speed of the conveying mechanism inside Welding machine of steel wire mesh to horizontal bar and longitudinal rib;
Two, horizontal bar sequentially feeding: opening Welding machine of steel wire mesh, by the long muscle of the transverse direction, laterally short muscle A and lateral short muscle
B is successively sent into from the enterprising muscle mouth of Welding machine of steel wire mesh according to welding sequence, keeps laterally short muscle A and the laterally outer end of short muscle B
It is aligned respectively with the both ends of laterally long muscle;Welding sequence described herein refers to horizontal bar on longitudinal rib from welding starting end
To the distributing order of end, laterally the outer end of short muscle A and lateral short muscle B are referred to respectively close to enterprising muscle mouth left and right ends
End;
Three, longitudinal rib sequentially feeding:
I welds longitudinal long muscle and longitudinal short muscle A from steel mesh while first horizontal bar is sent into Welding machine of steel wire mesh
The front side guide pipe to pick is sent into Welding machine of steel wire mesh, guarantees longitudinal short muscle A face preset hole design position distribution, the design
Position is determined by the number of steel bars of preset hole left-right and front-back on aperture steel mesh;
Longitudinal short muscle B is followed longitudinal short muscle A before corresponding while fully enter to longitudinal short muscle A into muscle pipe by II
Side guide pipe is sent into Welding machine of steel wire mesh;
Longitudinal short muscle C is followed longitudinal short muscle B before corresponding while fully enter to longitudinal short muscle B into muscle pipe by III
Side guide pipe is sent into Welding machine of steel wire mesh;
Four, Welding machine of steel wire mesh is closed after the completion of steel mesh welding.
A kind of aperture steel mesh process units using aperture steel mesh production method described above, including steel mesh welding
Machine, the Welding machine of steel wire mesh have,
Enterprising muscle mouth is located at the top of the Welding machine of steel wire mesh, feeds for horizontal bar;And
Under into muscle mouth, be located on front side of the Welding machine of steel wire mesh, fed for longitudinal rib;And
Guide rail is stretched out from Welding machine of steel wire mesh front end two sides horizontal parallel;And
Moving parts is movably arranged on the guide rail;
It into muscle mouth include several into muscle pipe and with described into muscle pipe several front side guide pipes correspondingly under described, it is described
Front side guide pipe has supporting role for importing longitudinal rib into muscle pipe, while to longitudinal rib, to prevent longitudinal rib from dropping
Cause compressing that nozzle is caused to damage or occur stuck phenomenon into muscle pipe;The front side guide pipe is all set in the moving portion
On part, front side guide pipe is adjusted along guide rail back-and-forth motion by moving parts and into the spacing between muscle pipe.
Further, the moving parts includes support frame and the idler wheel for being set to support frame as described above two sides, the front side
Guide pipe is longitudinally parallelly mounted on support frame as described above, and support frame relies on the idler wheel of two sides on the guide rail before and after scrolling realization
It is mobile;The idler wheel and the guide rail rely on tooth engagement, and to guarantee that idler wheel moves along the rail, while tooth engagement generates larger resistance
Power enables the moving parts to be located on guide rail by self gravity, and front and back must could occur by larger external force
Displacement.
Further, the Welding machine of steel wire mesh also has for measuring the front side guide pipe and described between muscle pipe
The measuring device of spacing provides the front side guide pipe and the real-time reading into spacing between muscle pipe by the measuring device
Number, facilitates worker to determine the suitable position of the moving parts.
Further, the measuring device is infrared distance measuring device, and the infrared distance measuring device includes being set to the shifting
Transmitter on dynamic component, and it is set to receiver and display on front side of the Welding machine of steel wire mesh.The transmitter hair
The infrared ray of injection is received by receiver and is calculated distance, is converted into numerical value and shows over the display.
Further, the infrared distance measuring device is at least millimeter class precision, guarantees that the preset hole positioning reaches millimeter
It is more than class precision.
Further, the measuring device is the ranging rod being set on the guide rail lateral surface, by reading ranging rod
Reading measurement front side guide pipe and into the spacing between muscle pipe.
Further, be provided at the enterprising muscle mouth it is several lead gusset, cooperated by leading gusset and enterprising muscle mouth so that
Only allow the horizontal bar to enter every time, congestion occurs at enterprising muscle mouth to avoid the horizontal bar, in addition lead gusset
Also there is horizontal bar positioning action.
Further, the gusset of leading is uniformly and symmetrically distributed from the enterprising muscle mouth both ends to centre, and two neighboring institute
The spacing for leading gusset is stated less than most short one length in the short muscle A of the transverse direction and lateral short muscle B, leads gusset so that guarantee two is adjacent
The shortest horizontal bar can be constrained.
It further, further include that front side pipeline and rear side pipeline, front side pipeline and rear side pipeline are respectively set
Front side and rear side in the Welding machine of steel wire mesh, the front side pipeline are used to convey to the Welding machine of steel wire mesh longitudinal
Muscle, the rear side pipeline are used to convey the steel mesh of welding fabrication.
Beneficial effect
Using technical solution provided by the invention, compared with prior art, have the following beneficial effects:
(1) a kind of aperture steel mesh production method provided by the invention, by first positioning preset hole longitudinal width and reinforcing bar
The conveying speed of reinforcing bar in net bonding machine successively operates horizontal bar and longitudinal rib feeding further in accordance with specific feeding sequence, can be real
Qualified aperture steel mesh is now directly produced using Welding machine of steel wire mesh, is not necessarily to secondary operation, is cut relative to traditional flame
It cuts or reinforcing bar pincers shearing, high production efficiency, no additional energy presets hole site accurate positioning, the defects of trimming is uneven are not present,
Final product quality greatly improves;And it not will cause waste of material;
(2) a kind of aperture steel mesh process units provided by the invention, front side guide pipe are arranged on the moving part, pass through
Moving parts presets front side guide pipe and into the spacing between muscle pipe, when worker can hold longitudinal rib feeding according to the distance
Machine guarantees preset hole accurate positioning on aperture steel mesh, can effectively improve production efficiency and the quality of production;
(3) a kind of aperture steel mesh process units provided by the invention, front side guide pipe and can into the spacing between muscle pipe
It is arbitrarily adjusted in adjustable extent with preset hole longitudinal width difference in the aperture steel mesh with production, it is practical, it is easy to push away
Extensively;
(4) a kind of aperture steel mesh process units provided by the invention, front side guide pipe have the function of support longitudinal rib,
To prevent longitudinal rib tenesmus from causing compressing that nozzle is caused to damage or occur stuck phenomenon into muscle pipe;
(5) a kind of aperture steel mesh process units provided by the invention, idler wheel and guide rail rely on tooth engagement, to guarantee idler wheel
It moves along the rail, while tooth engagement generates larger resistance, so that moving parts is located on guide rail by self gravity, and must
It must could be moved forward and backward by larger external force;
(6) a kind of aperture steel mesh process units provided by the invention is provided with measurement front side in Welding machine of steel wire mesh and leads
To the measuring device of spacing between Guan Yujin muscle pipe, front side guide pipe is provided by measuring device and into the reality of spacing between muscle pipe
When read, facilitate worker to determine the suitable position of moving parts;
(7) a kind of aperture steel mesh process units provided by the invention, measuring device is infrared distance measuring device, adjustment movement
When component locations, front side guide pipe and between muscle pipe spacing reading can directly display out by infrared distance measuring device, mention
High measurement efficiency;
(8) a kind of aperture steel mesh process units provided by the invention, infrared distance measuring device are at least millimeter class precision, number
It is high to be worth accuracy, guarantees preset hole accurate positioning;
(9) a kind of aperture steel mesh process units provided by the invention, be provided at enterprising muscle mouth it is several lead gusset, pass through
It leads gusset and enterprising muscle mouth cooperates so that a horizontal bar is only allowed to enter every time, occur at enterprising muscle mouth to avoid horizontal bar
Congestion;In addition leading gusset also has horizontal bar positioning action;
(10) it is uniform from enterprising muscle mouth both ends to centre to lead gusset for a kind of aperture steel mesh process units provided by the invention
It is symmetrical, and the two neighboring spacing for leading gusset is less than laterally short muscle A and laterally most short one length in short muscle B, to protect
Shortest horizontal bar can be constrained by demonstrate,proving two adjacent gussets of leading;
(11) a kind of aperture steel mesh process units provided by the invention further includes front side pipeline and rear side pipeline,
It is respectively used to the steel mesh of conveying longitudinal rib and welding fabrication.
Detailed description of the invention
The structural schematic diagram of Fig. 1, aperture steel mesh process units of the invention;
Fig. 2, the present invention in moving parts structural schematic diagram;
Fig. 3, the present invention in ranging rod position partial structural diagram;
Fig. 4, the present invention in aperture steel mesh one form of them structural schematic diagram;
In attached drawing: 10, horizontal bar;11, lateral long muscle;12, lateral short muscle A;13, lateral short muscle B;20, longitudinal rib;21,
Longitudinal long muscle;22, longitudinal short muscle A;23, longitudinal short muscle B;24, longitudinal short muscle C;30, Welding machine of steel wire mesh;40, front side conveys
Line;50, rear side pipeline;100, preset hole;310, enterprising muscle mouth;311, gusset is led;320, into muscle mouth under;321, front side is oriented to
Pipe;322, into muscle pipe;330, moving parts;331, support frame;332, idler wheel;340, guide rail;341, ranging rod;350, infrared survey
Away from device;351, transmitter;352, receiver;353, display.
Specific embodiment
To further appreciate that the contents of the present invention, in conjunction with accompanying drawings and embodiments, the present invention is described in detail.
Embodiment 1
A kind of aperture steel mesh process units, as shown in Figure 1, including Welding machine of steel wire mesh 30, the Welding machine of steel wire mesh
30 include enterprising muscle mouth 310, are located at 30 top of the Welding machine of steel wire mesh, the enterprising muscle mouth 310 be horizontal bar 10 into
Mouthful;Into muscle mouth 320 under and, be located at 30 front side of Welding machine of steel wire mesh, it is described under into muscle mouth 320 be longitudinal rib 20 into
Mouthful;And guide rail 340, it is stretched out from the 30 front end two sides horizontal parallel of Welding machine of steel wire mesh;And moving parts 330,
It is movably arranged on the guide rail 340;Into muscle mouth 320 including several into muscle pipe 322 and with described into muscle pipe 322 1 under described
One corresponding several front side guide pipes 321;The front side guide pipe 321 is all set on the moving parts 330.
Before welded steel fabric, default front side guide pipe is adjusted by pushing moving parts 330 to be moved forward and backward along guide rail 340
321 and into the spacing between muscle pipe 322, when welding aperture steel mesh as shown in Figure 4, longitudinal end short muscle A22 completely into
While Welding machine of steel wire mesh 30, it is sent into longitudinal short muscle B23 at a same speed, so that longitudinal short muscle A22 and longitudinal short muscle B23
Between spacing be just equal to 100 longitudinal width of preset hole.
In welding process, the front side guide pipe 321 gives 20 travel guidance of longitudinal rib, while longitudinal rib 20 being supported to prevent it
Because self gravity is bent downwardly, and then avoid causing compressing that nozzle is caused to damage or occur stuck phenomenon into muscle pipe 322.It is horizontal
After entering Welding machine of steel wire mesh 30 to muscle 10 and longitudinal rib 20, weldering is delivered to by the conveying mechanism inside Welding machine of steel wire mesh 30
Receiving electrode position carries out automatic welding.
Aperture steel mesh process units in the present embodiment, can be by pushing moving parts 330 to preset front side guiding
Pipe 321 and into the spacing between muscle pipe 322, when producing aperture steel mesh, worker can determine on longitudinal rib 20 according to the spacing
Material opportunity guarantees 100 accurate positioning of preset hole on aperture steel mesh, can effectively improve production efficiency and the quality of production;In addition,
Front side guide pipe 321 and can be with 100 longitudinal width of preset hole in the aperture steel mesh of production not into the spacing between muscle pipe 322
It is arbitrarily adjusted in adjustable extent, it is practical, it is easy to spread.
Embodiment 2
A kind of aperture steel mesh process units of the present embodiment, basic structure exist with embodiment 1, different and improvements
In, as shown in Fig. 2, the moving parts 330 includes support frame 331 and the idler wheel 332 for being set to 331 two sides of support frame as described above,
The front side guide pipe 321 is longitudinal to be parallelly mounted on support frame as described above 331, and support frame 331 is by the idler wheel 332 of two sides in institute
Scrolling realization on guide rail 340 is stated to be moved forward and backward.
As shown in figure 3, the idler wheel 332 relies on tooth engagement with the guide rail 340, when pushing moving parts 330, by tooth
Constraint, idler wheel 332 are moved along guide rail 340, while tooth engagement generates larger resistance, push moving parts 330 that must rely on larger
External force enables the moving parts 330 to be located on guide rail 340 by self gravity, and then avoids welding in steel mesh
100 size of preset hole is caused deviation occur because 20 feeding of longitudinal rib causes moving parts 330 to be subjected to displacement in the process.
Aperture steel mesh process units in the present embodiment, moving parts 330 is when guide rail 340 is positioned without locking
Mechanism or other foreign objects, structure is simple, at low cost.
Embodiment 3
A kind of aperture steel mesh process units of the present embodiment, the same Examples 1 and 2 of basic structure, different and improvements
Be, as shown in Figure 1, the Welding machine of steel wire mesh 30 also have for measure the front side guide pipe 321 with it is described into muscle pipe
The measuring device of spacing between 322 provides the real time readouts of the spacing by the measuring device, facilitates the mobile adjustment of worker
The moving parts 330.
The measuring device is infrared distance measuring device 350, and the infrared distance measuring device 350 includes being set to the moving portion
Transmitter 351 on part 330, and it is set to the receiver 352 and display 353 of 30 front side of Welding machine of steel wire mesh.Institute
It states infrared distance measuring device 350 and is at least millimeter class precision, guarantee the 100 longitudinal width error of preset hole in grade.
When pushing moving parts 330, the transmitter 351 on support frame 331 launches infrared ray, and the infrared ray is directly by connecing
It receives device 352 to receive, and distance is calculated by receiver 352, be converted into numerical value and shown on display 353, Gong Renke
Directly to adjust 330 position of moving parts according to the reading on display 353, until 330 position suitable of moving parts.
Aperture steel mesh process units in the present embodiment, when adjusting 330 position of moving parts, the front side guide pipe
321 and it is described between muscle pipe 322 spacing reading can directly display out by infrared distance measuring device 350, improve measurement
Efficiency, and Numerical accuracy is high.
Embodiment 4
A kind of aperture steel mesh process units of the present embodiment, basic structure exist with embodiment 3, different and improvements
In as shown in figure 3, to be that the ranging rod 341 that is set on 340 lateral surface of guide rail has at low cost for the measuring device, no
The advantages that easy to damage.During adjusting 330 position of moving parts, worker is by reading the reading measurement of ranging rod 341 front side guiding
Pipe 321 is moved forward and backward with into 322 spacing of muscle pipe according to reading information, until being moved to suitable position.
Embodiment 5
A kind of aperture steel mesh process units of the present embodiment, basic structure is the same as embodiment 1 to 4, different and improvements
It is, several leads gusset 311 as shown in Figure 1, being provided at the enterprising muscle mouth 310.
The gusset 311 of leading is uniformly and symmetrically distributed from enterprising 310 both ends of muscle mouth to centre, and two neighboring described is led
The spacing of gusset 311 is less than most short one length in the short muscle A12 of the transverse direction and laterally short muscle B13, adjacent leads gusset with two
311 can constrain the shortest horizontal bar 10.
In 10 feeding process of horizontal bar, worker pushes horizontal bar 10 into enterprising muscle mouth 310, close to enterprising muscle mouth 310
Horizontal bar 10 is by the blocking for leading gusset 311 and dredges one by one from enterprising muscle mouth 310 into Welding machine of steel wire mesh 30, will not
There are congestion phenomenons.In addition, in the feeding process, leading gusset 311 and can also play and determine to laterally short muscle A12 and lateral short muscle B13
The effect of position leads gusset 311 with certain two and places laterally short muscle A12 for positioning endpoint according to the difference of 100 position of preset hole
With laterally short muscle B13, it is ensured that the not deviation of preset hole 100.
Embodiment 6
A kind of aperture steel mesh process units of the present embodiment, basic structure is the same as embodiment 1 to 5, different and improvements
It is, as shown in Figure 1, further including that front side pipeline 40 and rear side pipeline 50, front side pipeline 40 and rear side pipeline 50 divide
Front side and the rear side of the Welding machine of steel wire mesh 30 are not set.
In steel mesh welding process, longitudinal rib 20 is delivered to front side 321 position of guide pipe by front side pipeline 40, then
Longitudinal rib 20 is sent into front side guide pipe 321 manually and into muscle pipe 322 by worker;The steel mesh finished product formed is welded from steel mesh
It is exported on rear side of bonding machine 30, is delivered to stacking region through rear side pipeline 50 and is stacked.
Embodiment 7
A kind of aperture steel mesh production method, as shown in figure 4, there are preset hole 100 in the middle part of the aperture steel mesh, by
Several horizontal bars 10 being parallel to each other and several longitudinal ribs 20 being parallel to each other are mutually right angle welding and form, and the horizontal bar 10 wraps
Include laterally long muscle 11, laterally short muscle A12 and lateral short muscle B13, the longitudinal rib 20 include longitudinal long muscle 21, longitudinal short muscle A22,
Longitudinal short muscle B23 and longitudinal short muscle C24, the aperture steel mesh are welded using Welding machine of steel wire mesh 30 described in embodiment 1 to 6
It connects, method and step are as follows:
One, Welding machine of steel wire mesh is debugged:
I, preset in the Welding machine of steel wire mesh 30 according to the longitudinal width of the preset hole 100 front side guide pipe 321 with
Into the distance between muscle pipe 322, guarantee that the distance is the longitudinal width of the preset hole 100;
II, the conveying speed that horizontal bar 10 and longitudinal rib 20 are preset according to the mesh size of steel mesh;It is described defeated at this
Sending speed is conveying speed of the conveying mechanism inside Welding machine of steel wire mesh 30 to horizontal bar 10 and longitudinal rib 20;
Two, horizontal bar sequentially feeding: opening Welding machine of steel wire mesh 30, by the long muscle 11 of the transverse direction, laterally short muscle A12 and cross
Successively be sent into from the enterprising muscle mouth 310 of Welding machine of steel wire mesh 30 to short muscle B13 according to welding sequence, keep laterally short muscle A12 and
Laterally the outer end of short muscle B13 is aligned respectively with the both ends of laterally long muscle 11;Welding sequence described herein refers to horizontal bar 10
From welding starting end to the distributing order of end on longitudinal rib 20, laterally the outer end of short muscle A12 and lateral short muscle B13 refer to
It is the end respectively close to enterprising 310 left and right ends of muscle mouth;
Three, longitudinal rib sequentially feeding:
I, while first horizontal bar 10 is sent into Welding machine of steel wire mesh 30 by longitudinal long muscle 21 and longitudinal short muscle A22 from
The front side guide pipe 321 of Welding machine of steel wire mesh 30 is sent into Welding machine of steel wire mesh 30, guarantees longitudinal short muscle A22 face preset hole 100
Design position distribution;
II, while fully enter to longitudinal short muscle A22 into muscle pipe 322 by longitudinal short muscle B23 follow longitudinal short muscle A22 from
Corresponding front side guide pipe 321 is sent into Welding machine of steel wire mesh 30;
III, while fully enter to longitudinal short muscle B23 into muscle pipe 322 by longitudinal short muscle C24 follow longitudinal short muscle B23 from
Corresponding front side guide pipe 321 is sent into Welding machine of steel wire mesh 30;
Four, Welding machine of steel wire mesh 30 is closed after the completion of steel mesh welding.
Aperture steel mesh production method in the present embodiment, by first positioning 100 longitudinal width of preset hole, further in accordance with specific
Feeding sequence successively operate horizontal bar 10 and 20 feeding of longitudinal rib, can directly produce qualification using Welding machine of steel wire mesh 30
Aperture steel mesh, production operation is simple, relative to traditional gas flame cuttiug or reinforcing bar pincers shearing, high production efficiency, preset hole
The defects of trimming is uneven is not present in 100 position accurate positionings, and final product quality greatly improves.
Schematically the present invention and embodiments thereof are described above, description is not limiting, institute in attached drawing
What is shown is also one of embodiments of the present invention, and actual structure is not limited to this.So if the common skill of this field
Art personnel are enlightened by it, without departing from the spirit of the invention, are not inventively designed and the technical solution
Similar frame mode and embodiment, are within the scope of protection of the invention.
Claims (10)
1. a kind of aperture steel mesh production method, there are preset hole (100) at the aperture steel mesh middle part, by what is be parallel to each other
Several horizontal bars (10) and several longitudinal ribs (20) being parallel to each other are mutually right angle welding and form, and the horizontal bar (10) includes cross
To long muscle (11), laterally short muscle A (12) and lateral short muscle B (13), the longitudinal rib (20) are short including longitudinal long muscle (21), longitudinal direction
Muscle A (22), longitudinal short muscle B (23) and longitudinal short muscle C (24), which is characterized in that the aperture steel mesh is by Welding machine of steel wire mesh
(30) it is welded, method and step are as follows:
One, Welding machine of steel wire mesh is debugged:
I presets front side guide pipe (321) in the Welding machine of steel wire mesh (30) according to the longitudinal width of the preset hole (100)
With into the distance between muscle pipe (322), guarantee that the distance is the longitudinal width of the preset hole (100);
II, the conveying speed that horizontal bar (10) and longitudinal rib (20) are preset according to the mesh size of steel mesh;
Two, horizontal bar sequentially feeding: opening Welding machine of steel wire mesh (30), by the long muscle of the transverse direction (11), laterally short muscle A (12) and
Laterally short muscle B (13) is successively sent into from the enterprising muscle mouth (310) of Welding machine of steel wire mesh (30) according to welding sequence, keeps laterally short
Muscle A (12) and the laterally outer end of short muscle B (13) are aligned respectively with the both ends of laterally long muscle (11);
Three, longitudinal rib sequentially feeding:
I, while first horizontal bar (10) is sent into Welding machine of steel wire mesh (30) by longitudinal long muscle (21) and longitudinal short muscle A
(22) Welding machine of steel wire mesh (30) are sent into from the front side guide pipe (321) of Welding machine of steel wire mesh (30), guarantee longitudinal short muscle A (22)
The distribution of face preset hole (100) design position;
Longitudinal short muscle B (23) be followed longitudinal short muscle A while fully enter to longitudinal short muscle A (22) into muscle pipe (322) by II
(22) Welding machine of steel wire mesh (30) are sent into from corresponding front side guide pipe (321);
Longitudinal short muscle C (24) be followed longitudinal short muscle B while fully enter to longitudinal short muscle B (23) into muscle pipe (322) by III
(23) Welding machine of steel wire mesh (30) are sent into from corresponding front side guide pipe (321);
Four, Welding machine of steel wire mesh (30) are closed after the completion of steel mesh welding.
2. a kind of aperture steel mesh process units using the production method of aperture steel mesh described in claim 1, feature exist
In: including Welding machine of steel wire mesh (30), the Welding machine of steel wire mesh (30) has,
Enterprising muscle mouth (310) is located at the top of the Welding machine of steel wire mesh (30);And
Under into muscle mouth (320), be located on front side of the Welding machine of steel wire mesh (30);And
Guide rail (340) is stretched out from the Welding machine of steel wire mesh (30) front end two sides horizontal parallel;And
Moving parts (330) is movably arranged on the guide rail (340);
It into muscle mouth (320) include several into muscle pipe (322) and with described into the one-to-one several front sides of muscle pipe (322) under described
Guide pipe (321);The front side guide pipe (321) is all set on the moving parts (330).
3. a kind of aperture steel mesh process units according to claim 2, it is characterised in that: the moving parts (330)
Including support frame (331) and it is set to the idler wheel (332) of support frame as described above (331) two sides, the idler wheel (332) and the guide rail
(340) tooth engagement is relied on.
4. a kind of aperture steel mesh process units according to claim 3, it is characterised in that: the Welding machine of steel wire mesh
(30) also have for measuring the front side guide pipe (321) and the measuring device into spacing between muscle pipe (322).
5. a kind of aperture steel mesh process units according to claim 4, it is characterised in that: the measuring device is infrared
Range unit (350), the infrared distance measuring device (350) include the transmitter being set on the moving parts (330)
And the receiver (352) and display (353) that are set on front side of the Welding machine of steel wire mesh (30) (351),.
6. a kind of aperture steel mesh process units according to claim 5, it is characterised in that: the infrared distance measuring device
(350) it is at least millimeter class precision.
7. a kind of aperture steel mesh process units according to claim 4, it is characterised in that: the measuring device is setting
Ranging rod (341) on the guide rail (340) lateral surface.
8. according to a kind of any aperture steel mesh process units of claim 2 to 7, it is characterised in that: the enterprising muscle
It is provided at mouthful (310) and several leads gusset (311).
9. a kind of aperture steel mesh process units according to claim 8, it is characterised in that: it is described lead gusset (311) by
Enterprising muscle mouth (310) both ends are uniformly and symmetrically distributed to centre, and the two neighboring spacing for leading gusset (311) is less than institute
State laterally short muscle A (12) and laterally most short one length in short muscle B (13).
10. a kind of aperture steel mesh process units according to claim 9, it is characterised in that: further include front side pipeline
(40) and rear side pipeline (50).
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CN110125290A (en) * | 2019-06-05 | 2019-08-16 | 安徽马钢比亚西钢筋焊网有限公司 | A kind of automatic forming method of hollow type weldering net |
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CN112265812A (en) * | 2020-10-24 | 2021-01-26 | 杭州华盛钢网有限公司 | Longitudinal steel bar feeding system of steel bar mesh welding machine |
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CN114310043A (en) * | 2021-12-27 | 2022-04-12 | 嘉兴市宇人焊网机制造有限公司 | Control method of automatic mesh welding machine |
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