CN209407293U - A kind of weft doffer of welding machine of mesh - Google Patents
A kind of weft doffer of welding machine of mesh Download PDFInfo
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- CN209407293U CN209407293U CN201822017800.0U CN201822017800U CN209407293U CN 209407293 U CN209407293 U CN 209407293U CN 201822017800 U CN201822017800 U CN 201822017800U CN 209407293 U CN209407293 U CN 209407293U
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- weft
- tooth plate
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Abstract
The utility model discloses a kind of weft doffers of welding machine of mesh, it belongs to field of welding devices, including conveying mechanism and blanking mechanism, conveying mechanism includes the flywheel knife in material transfer space with the discharge end for being set to the material transfer space, multiple wefts prevent weft from accumulating in radially successively arranging in the material transfer space;It is provided with the groove that can receive the weft on the flywheel knife, in the rotation process of flywheel knife, weft is removed one by one, weft is further prevented to accumulate;Blanking mechanism is set to the exit side of the flywheel knife, including the fixed tooth plate with multiple first tooth sockets and the swing tooth plate with multiple second tooth sockets, first tooth socket receives the weft on the flywheel knife, the swing tooth plate moves relative to the fixed tooth plate and the weft that one is located in first tooth socket is moved in adjacent next first tooth socket, multiple wefts are separately subjected to blanking one by one, it prevents weft from accumulating, and realizes continuous blanking.
Description
Technical field
The utility model relates to field of welding devices more particularly to a kind of weft doffers of welding machine of mesh.
Background technique
Steel mesh is largely used in the fields such as bridge construction, high-speed railway, building.Welding machine of mesh is by longitudinal reinforcement and transverse direction
Reinforcing bar passes through electrode welding together, the equipment to form steel mesh grid.
Weft blanking mechanism is provided in welding machine of mesh, the effect of weft blanking mechanism is the fixed length that preparatory straightening, cutting is good
Weft weft be transported under electrode weld using material stirring disc rotation by rotating cylinder suction.Specifically, weft blanking
Mechanism includes inclined feed bin, and the transverse bar of the good fixed length of preparatory straightening, cutting is housed in feed bin, and transverse bar can prolong slideway and slip down to dress
Have in front of the roller of magnet, roller rotation is rotated with it using magnet absorption transverse bar, transverse bar is sent in material stirring disc, material stirring disc by
Motor drives its rotation, turns an angle, and transverse bar can fall off, along draw runner be slipped to electrode under welded.
It is provided with card slot in material stirring disc for receiving transverse bar, but two transverse bars easily occurs and is stuck in a card slot, causes
Card plug prevent transverse bar not only influences blanking speed from smoothly falling off, but also causes the stability of equipment to reduce.
Utility model content
The purpose of this utility model is to provide a kind of weft doffers of welding machine of mesh, to solve to exist in the prior art
Material stirring disc easy card muscle the technical issues of.
As above design, the technical scheme adopted by the utility model is
A kind of weft doffer of welding machine of mesh, comprising:
Conveying mechanism, the flywheel knife including material transfer space He the discharge end for being set to the material transfer space, multiple wefts in
It radially successively arranges in the material transfer space, the groove that can receive the weft is provided on the flywheel knife;
Blanking mechanism is set to the exit side of the flywheel knife, including fixed tooth plate and tool with multiple first tooth sockets
There is the swing tooth plate of multiple second tooth sockets, first tooth socket receives the weft on the flywheel knife, and the swing tooth plate is opposite
The weft that one is located in first tooth socket is moved to adjacent next first tooth in fixed tooth plate movement
In slot.
Wherein, multiple first tooth sockets include being located at the splicing groove of head end and successively arranging from head end terminad multiple
Material transfer slot, the quantity of second tooth socket are equal with the quantity of the material transfer slot.
Wherein, the swing tooth plate is located at initial position, and second tooth socket is connected to material transfer slot one-to-one correspondence;Institute
It states swing tooth plate and is located at blanking position, second tooth socket positioned at head end is connected to the splicing groove.
Wherein, the first transmission mechanism, first driver are provided between the swing tooth plate and the fixed tooth plate
Structure drives the swing tooth plate to move between the initial position and the blanking position.
Wherein, first transmission mechanism is gear drive, and the gear drive includes being rotatably dispose in institute
The driving gear on fixed tooth plate is stated, first rotating shaft, the first rotating shaft and the driving tooth are provided on the swing tooth plate
The eccentric connection of wheel.
Wherein, first transmission mechanism is cylinder-driven mechanism, and the cylinder-driven mechanism is described including being able to drive
The first cylinder and be able to drive the second gas that the swing tooth plate moves in a second direction that swing tooth plate is moved along first direction
Cylinder, the first direction and the second direction are mutually perpendicular to.
Wherein, along the axial direction of the weft, multiple blanking mechanism interval settings.
Wherein, the conveying mechanism further includes upper draw runner and lower draw runner, is formed between the upper draw runner and the lower draw runner
The material transfer space.
Wherein, the conveying mechanism further includes turntable cutter shaft, and the flywheel knife is set on the turntable cutter shaft.
Wherein, circumferentially arranged on the flywheel knife to have several grooves, the side of the flywheel knife is provided with fixed
Position block, the locating piece includes arc locating surface, and the axis of the positioning surface is overlapped with the axis of the flywheel knife.
The utility model has the beneficial effects that
The utility model proposes welding machine of mesh weft doffer, by material transfer space by multiple wefts radially successively
Arrangement, prevents weft from accumulating;The groove that the weft can be received by being arranged on flywheel knife, in the rotation process of flywheel knife
In, weft is removed one by one, weft is further prevented to accumulate;Weft is moved in the first tooth socket of fixed tooth plate by flywheel knife,
It is moved by swing tooth plate relative to fixed tooth plate, so that the second tooth socket and the first tooth socket are selectively connected to, by one positioned at the
Weft in one tooth socket is moved in adjacent next first tooth socket, and so on, so that weft is moved along multiple first tooth sockets
It is dynamic to fall off until being moved in the first tooth socket of fixed tooth plate end by swing tooth plate, realize blanking.Above-mentioned blanking operation will
Multiple wefts separately carry out blanking one by one, prevent weft from accumulating, and realize continuous blanking, improve production efficiency, reduce event
Barrier rate.
Detailed description of the invention
Fig. 1 is the main view of the weft doffer for the welding machine of mesh that the utility model embodiment one provides;
Fig. 2 is the side view of the weft doffer for the welding machine of mesh that the utility model embodiment one provides;
Fig. 3 be Fig. 2 A-A to cross-sectional view;
Fig. 4 is the enlarged drawing at the B of Fig. 3;
Fig. 5 is the partial structure diagram of Fig. 2;
Fig. 6 is the top view of the weft doffer for the welding machine of mesh that the utility model embodiment one provides;
Fig. 7 is the structural representation of the blanking mechanism of the weft doffer for the welding machine of mesh that the utility model embodiment one provides
Figure one;
Fig. 8 is the main view of Fig. 7;
Fig. 9 is the structural representation of the blanking mechanism of the weft doffer for the welding machine of mesh that the utility model embodiment one provides
Figure two;
Figure 10 is that the blanking mechanism of the weft doffer for the welding machine of mesh that the utility model embodiment one provides is in initial
The schematic diagram of position;
Figure 11 is that the blanking mechanism of the weft doffer for the welding machine of mesh that the utility model embodiment one provides is in blanking
The schematic diagram of position;
Figure 12 is that the blanking mechanism of the weft doffer for the welding machine of mesh that the utility model embodiment one provides is in initial
Schematic diagram between position and blanking position;
Figure 13 is that the blanking mechanism of the weft doffer for the welding machine of mesh that the utility model embodiment two provides is in initial
The schematic diagram of position;
Figure 14 is that the blanking mechanism of the weft doffer for the welding machine of mesh that the utility model embodiment two provides is in initial
Schematic diagram one between position and blanking position;
Figure 15 is that the blanking mechanism of the weft doffer for the welding machine of mesh that the utility model embodiment two provides is in blanking
The schematic diagram of position;
Figure 16 is that the blanking mechanism of the weft doffer for the welding machine of mesh that the utility model embodiment two provides is in initial
Schematic diagram two between position and blanking position.
In figure:
10, rack;
211, flywheel knife;212, turntable cutter shaft;221, upper draw runner;222, lower draw runner;231, wallboard;232, first is fixed
Beam;233, the second fixed beam;24, locating piece;25, charge plate;
31, fixed tooth plate;311, the first tooth socket;32, swing tooth plate;321, the second tooth socket;331, blanking underbeam;332, it falls
Material alignment side plate;34, blanking driving shaft;351, driving gear;352, first rotating shaft;353, driven gear;354, the second shaft;
355, power gear;356, intermediate gear;
40, weft;
51, continue material alignment side plate;52, continue material support plate;53, continue material motor;54, continue material axis;55, continue feed roller;56, it leads
To plate;
61, material beam is rubbed with the hands;62, material axis is rubbed with the hands;63, material bar is rubbed with the hands;64, material block is rubbed with the hands;65, material gear is rubbed with the hands;66, material rack gear is rubbed with the hands.
Specific embodiment
The technical issues of to solve the utility model, the technical solution of use and the technical effect that reaches are clearer,
Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.It is understood that
Specific embodiment described herein is used only for explaining the utility model, rather than the restriction to the utility model.In addition it also needs
It is noted that illustrating only part relevant to the utility model for ease of description, in attached drawing and not all.
Referring to Fig. 1 to Figure 12, the utility model embodiment provides a kind of weft doffer of welding machine of mesh, including rack
10, it is provided with conveying mechanism and blanking mechanism in rack 10, conveying mechanism includes material transfer space and is set to going out for material transfer space
Expect the flywheel knife 211 at end, in radially successively arranging in material transfer space, being provided on flywheel knife 211 can connect multiple wefts 40
Receive the groove of weft 40;Blanking mechanism is set to the exit side of flywheel knife 211, including the fixation with multiple first tooth sockets 311
Tooth plate 31 and swing tooth plate 32 with multiple second tooth sockets 321, the first tooth socket 311 receives the weft 40 on flywheel knife 211, living
Moving tooth plate 32 moved relative to fixed tooth plate 31 weft 40 that one is located in the first tooth socket 311 is moved to it is adjacent next
In first tooth socket 311.
Material transfer space is formed by upper draw runner 221 and the setting of lower draw runner 222 interval, and the size in material transfer space only allows single layer
Weft 40 is radially successively arranged, and prevents weft 40 from accumulating.
Conveying mechanism further includes two spaced wallboards 231, is provided with the first fixed beam between two wallboards 231
232, the second fixed beam 233 and blanking underbeam 331, upper draw runner 221 are set to the first fixed beam 232, and lower draw runner 222 is set to
Two fixed beams 233, fixed tooth plate 31 are set to blanking underbeam 331.
Two blanking alignment side plates 332 are arranged at intervals in first fixed beam 232, it can be according to the length adjustment of weft 40
The distance between two blanking alignment side plates 332.
The side of flywheel knife 211 is provided with locating piece 24, and locating piece 24 includes arc locating surface, and the axis of positioning surface with
The axis of flywheel knife 211 is overlapped.The setting of locating piece 24, so that flywheel knife 211 is during rotation, locating piece 24 can be to turning
Weft 40 in the groove of dise knife 211 limits, and prevents weft 40 from deviating from from the notch of groove.
Conveying mechanism further includes turntable cutter shaft 212, and flywheel knife 211 is set on turntable cutter shaft 212, and 212 turns of turntable cutter shaft
It is dynamic to be set on wallboard 231.It is circumferentially arranged on flywheel knife 211 to have several grooves.Flywheel knife 211 rotates one week, if transmitting
Dry weft 40.Determine that the quantity and installation site of flywheel knife 211, quantity are one or two according to 40 length of weft.
Also rotation is provided with blanking driving shaft 34 on wallboard 231, passes through tooth between blanking driving shaft 34 and turntable cutter shaft 212
Wheel engaged transmission.Blanking driving shaft 34 and turntable cutter shaft 212 are simultaneously by blanking motor driven.
Blanking mechanism is connect with blanking underbeam 331.The side of fixed tooth plate 31 is bolted on blanking underbeam 331
On, and fixed tooth plate 31 is threaded through on blanking driving shaft 34.Fixed tooth plate 31 is fixed on blanking driving shaft 34 by fixing sleeve,
Fixed tooth plate 31 is constantly in stationary state, and the rotation of blanking driving shaft 34 does not influence fixed tooth plate 31.
Along the axial direction of weft 40, multiple blanking mechanism interval settings.Multiple blanking mechanisms provide support to weft 40, keep
The balance of weft 40.
Multiple first tooth sockets 311 include the multiple material transfers for being located at the splicing groove of head end and successively arranging from head end terminad
The quantity of slot, the second tooth socket 321 is equal with the quantity of material transfer slot.That is quantity of the quantity of the first tooth socket 311 than the second tooth socket 321
More one.
Referring to Figure 10, swing tooth plate 32 is located at initial position, and the second tooth socket 321 is connected to material transfer slot one-to-one correspondence.Referring to
Figure 11, swing tooth plate 32 are located at blanking position, and the second tooth socket 321 positioned at head end is connected to splicing groove.When each first tooth socket
When having weft 40 in 311, if swing tooth plate 32 is located at initial position, the weft 40 in material transfer slot also is located at the second tooth socket
In 321;When swing tooth plate 32 is located at blanking position, the weft 40 in the material transfer slot of least significant end is held up by swing tooth plate 32,
So that weft 40 falls along the end of swing tooth plate 32, the weft 40 in remaining first tooth socket 311 is by swing tooth plate 32
It holds up in the second tooth socket 321 of swing tooth plate 32;When swing tooth plate 32 is moved to initial position by blanking position, position
It is placed in corresponding material transfer slot in the weft 40 in the second tooth socket 321, splicing groove is vacant and for receiving flywheel knife at this time
Lower weft 40 on 211.The movement of swing tooth plate 32 realizes the second tooth socket 321 and is connected to 311 selectivity of the first tooth socket.
The first transmission mechanism is provided between swing tooth plate 32 and fixed tooth plate 31, the first transmission mechanism drives swing tooth plate
32 move between initial position and blanking position.
In the present embodiment, the first transmission mechanism is gear drive, and gear drive includes being rotatably dispose in admittedly
Driving gear 351 in fixed-tooth plate 31 is provided with first rotating shaft 352, first rotating shaft 352 and driving gear on swing tooth plate 32
351 bias are fixedly connected.When driving gear 351 rotate when, drive first rotating shaft 352 around driving gear 351 center rotating, into
And make swing tooth plate 32 relative to the center rotating of the driving gear 351 on fixed tooth plate 31.
In order to guarantee the stability of swing tooth plate 32 during rotation, gear drive further includes being rotatably dispose in admittedly
Driven gear 353 in fixed-tooth plate 31 is provided with the second shaft 354, the second shaft 354 and driven gear on swing tooth plate 32
353 bias are fixedly connected, and the line of centres and driving gear 351 and driven gear of first rotating shaft 352 and the second shaft 354
Parallel and equal length heart linked to heart in 353.
In order to enable driving gear 351, driven gear 353 and blanking main shaft share the same driving mechanism, blanking main shaft
On be provided with power gear 355, power gear 355 is engaged with driving gear 351.In order to enable driving gear 351 and driven tooth
Wheel 353 rotates in same direction, and intermediate gear 356 is engaged between driving gear 351 and driven gear 353.
Certainly, in addition to said gear transmission mechanism, the first transmission mechanism can also be four-bar mechanism, and be parallel four side
Shape four-bar linkage structure.
Xu Liao mechanism and Xu Liao auxiliary body are additionally provided in rack 10, Xu Liao mechanism and Xu Liao auxiliary body are in conveyer
The upstream of structure is set gradually, and increases storing function, it is possible to reduce the number of artificial continuous material reduces labour, improves work effect
Rate.
Xu Liao mechanism includes be mounted in rack 10 two continuous material alignment side plates 51 and multiple continuous material support plates 52, and two
The spacing that continuous material is aligned between side plate 51 is adjustable and spacing is equal to the length of weft 40, continues and aligns in material support plate 52 equipped with preparatory
A certain number of wefts 40 of good fixed length.Equipped with continuous material motor 53 in rack 10, continuous material motor 53 connect with continuous material axis 54, continues
Material axis 54 is mounted in rack 10 by rolling bearing units, is provided with magnetic continuous feed roller 55 on continuous material axis 54, is continued material rolling
Cylinder 55 is located at one end of continuous material support plate 52, and weft 40 is transferred to Xu Liao auxiliary body.
Feed end in material transfer space fills guide plate 56 on charge plate 25, uses in being equipped with charge plate 25 on lower draw runner 222
It is fallen on charge plate 25 in by the guiding of weft 40 on continuous feed roller 55.
Xu Liao auxiliary body includes the stranding material beam 61 being fixed on wallboard 231, rubs with the hands and expects axis branch equipped with multiple strandings on material beam 61
Seat is supportted, rubs material axis 62 with the hands for installing.It rubs with the hands and multiple stranding material bars 63 is installed on material axis 62, rub material bar 63 with the hands and upper draw runner 221 1 is a pair of
It should be arranged, block 64 is expected in one stranding of installation on each stranding material bar 63.It rubs material bar 63 with the hands and is connect with material block 64 is rubbed with the hands, rub material 62 rotation process of axis with the hands
In, expect that block 64 is swung by rubbing material bar 63 with the hands and driving to rub with the hands.
The one end for rubbing material axis 62 with the hands is mounted on wallboard 231 and stretches out outside wallboard 231 and connect with the second transmission mechanism, and second passes
Motivation structure includes being mounted on to rub the material of the stranding on material axis 62 gear 65, the cylinder being mounted on wallboard 231 with the hands and be mounted on cylinder
It rubs material rack gear 66 with the hands, rubs material rack gear 66 with the hands and engaged with material gear 65 is rubbed with the hands.
Cylinder rod stretches out, and drives stranding material bar 63 that will rub material block 64 with the hands and stir and reaches extreme higher position;Cylinder rod retracts, and drives and rubs material with the hands
Block 64 returns to extreme lower position.The reciprocating motion of cylinder rod completes to rub with the hands material block 64 to the flat process of stranding of multiple wefts 40.
The weft doffer of welding machine of mesh is put into continuous material when in use, by the weft 40 of a large amount of fixed length aligned in advance
In the continuous material support plate 52 of mechanism, continue material alignment side plate 51 according to 40 length adjustment of weft to appropriate location, continuous material motor 53 opens
It is dynamic that continuous feed roller 55 is driven to rotate, when magnetic position rotates through the weft 40 in continuous material support plate 52 in continuous feed roller 55
When, a certain number of wefts 40 can be adsorbed, continues to rotate and send weft 40 to charge plate 25.
Cylinder rod reciprocal telescopic is put down so that rubbing material block 64 with the hands and swinging to rub with the hands in weft 40, so that 40 proper alignment of weft enters biography
Material space.
The rotation of blanking motor, rotates blanking driving shaft 34, drives swing tooth plate 32 to move, while driving turntable cutter shaft
212 rotations, flywheel knife 211 hook up the weft 40 in material transfer space in the first tooth socket 311 for falling into fixed tooth plate 31, movable teeth
Plate 32 is transmitted to the weft 40 in first the first tooth socket 311 is taken away in second the first tooth socket 311 of fixed tooth plate 31, with
This analogizes, and weft 40 is welded under sending to electrode tip step by step one by one.
Embodiment two
Figure 13 to Figure 16 shows embodiment two, wherein being the same as example 1 or corresponding components use and embodiment
One corresponding appended drawing reference.For simplicity, the distinctive points of embodiment two Yu embodiment one are only described.It is in place of difference, the
One transmission mechanism is cylinder-driven mechanism, and cylinder-driven mechanism includes for being able to drive swing tooth plate 32 and moving along first direction
One cylinder mutually hangs down with the second cylinder that swing tooth plate 32 moves in a second direction, first direction and second direction is able to drive
Directly.Arrow C1 indicates that first direction, arrow C2 indicate second direction in Figure 13.
Swing tooth plate 32 is located at initial position, and the second tooth socket 321 is connected to material transfer slot one-to-one correspondence.First cylinder, which drives, lives
Moving tooth plate 32 moves the first pre-determined distance along first direction, and the second tooth socket 321 and the first tooth socket 311 are separate.Second cylinder drives
Swing tooth plate 32 moves the second pre-determined distance in a second direction, and swing tooth plate 32 is located at blanking position, positioned at the second tooth of head end
Slot 321 is connected to splicing groove.First cylinder drive swing tooth plate 32 along moved in the opposite direction with first party first it is default away from
From so that the second tooth socket 321 is located at the top of material transfer slot.At this point, the second cylinder drive swing tooth plate 32 along with second direction phase
Mobile second pre-determined distance in anti-direction, swing tooth plate 32 return to initial position.
Embodiment of above only elaborates the basic principles and features of the present invention, and the utility model is not by above-mentioned reality
The mode of applying limits, and on the premise of not departing from the spirit and scope of the utility model, the present invention has various changes and changes,
These changes and changes fall within the scope of the claimed invention.The utility model requires protection scope is by appended
Claims and its equivalent thereof.
Claims (10)
1. a kind of weft doffer of welding machine of mesh characterized by comprising
Conveying mechanism, the flywheel knife (211) including material transfer space He the discharge end for being set to the material transfer space, multiple wefts
(40) it radially successively arranges in Yu Suoshu material transfer space, the weft can be received by being provided on the flywheel knife (211)
(40) groove;
Blanking mechanism is set to the exit side of the flywheel knife (211), including the fixation tooth with multiple first tooth sockets (311)
Plate (31) and the swing tooth plate (32) with multiple second tooth sockets (321), first tooth socket (311) receive the flywheel knife
(211) weft (40) on, the swing tooth plate (32) moves relative to the fixed tooth plate (31) is located at described for one
Weft (40) in one tooth socket (311) is moved in adjacent next first tooth socket (311).
2. the weft doffer of welding machine of mesh according to claim 1, which is characterized in that multiple first tooth sockets
It (311) include the multiple material transfer slots for being located at the splicing groove of head end and successively arranging from head end terminad, second tooth socket (321)
Quantity it is equal with the quantity of the material transfer slot.
3. the weft doffer of welding machine of mesh according to claim 2, which is characterized in that the swing tooth plate (32) is located at
Initial position, second tooth socket (321) are connected to material transfer slot one-to-one correspondence;The swing tooth plate (32) is located at blanking position
It sets, second tooth socket (321) positioned at head end is connected to the splicing groove.
4. the weft doffer of welding machine of mesh according to claim 3, which is characterized in that the swing tooth plate (32) and institute
It states and is provided with the first transmission mechanism between fixed tooth plate (31), first transmission mechanism drives the swing tooth plate (32) in institute
It states and is moved between initial position and the blanking position.
5. the weft doffer of welding machine of mesh according to claim 4, which is characterized in that first transmission mechanism is tooth
Wheel drive mechanism, the gear drive include the driving gear (351) being rotatably dispose on the fixed tooth plate (31), institute
It states and is provided on swing tooth plate (32) first rotating shaft (352), the first rotating shaft (352) and the driving gear (351) are eccentric
Connection.
6. the weft doffer of welding machine of mesh according to claim 4, which is characterized in that first transmission mechanism is gas
Cylinder transmission mechanism, the cylinder-driven mechanism include being able to drive the first gas that the swing tooth plate (32) is moved along first direction
Cylinder and it is able to drive the second cylinder that the swing tooth plate (32) moves in a second direction, the first direction and the second party
To being mutually perpendicular to.
7. the weft doffer of welding machine of mesh according to claim 1, which is characterized in that the axis along the weft (40)
To multiple blanking mechanism interval settings.
8. the weft doffer of welding machine of mesh according to claim 1-7, which is characterized in that the conveying mechanism
Further include upper draw runner (221) and lower draw runner (222), forms the biography between the upper draw runner (221) and the lower draw runner (222)
Material space.
9. the weft doffer of welding machine of mesh according to claim 1-7, which is characterized in that the conveying mechanism
It further include turntable cutter shaft (212), the flywheel knife (211) is set on the turntable cutter shaft (212).
10. the weft doffer of welding machine of mesh according to claim 1-7, which is characterized in that the flywheel knife
(211) circumferentially arranged on to have several grooves, the side of the flywheel knife (211) is provided with locating piece (24), described
Locating piece (24) includes arc locating surface, and the axis of the positioning surface is overlapped with the axis of the flywheel knife (211).
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CN201822017800.0U CN209407293U (en) | 2018-11-28 | 2018-11-28 | A kind of weft doffer of welding machine of mesh |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109702120A (en) * | 2018-11-28 | 2019-05-03 | 建科机械(天津)股份有限公司 | A kind of welding machine of mesh |
CN111570681A (en) * | 2020-04-29 | 2020-08-25 | 建科机械(天津)股份有限公司 | Trompil reinforcing bar blanking mechanism and mesh welding machine blanking system |
-
2018
- 2018-11-28 CN CN201822017800.0U patent/CN209407293U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109702120A (en) * | 2018-11-28 | 2019-05-03 | 建科机械(天津)股份有限公司 | A kind of welding machine of mesh |
CN109702120B (en) * | 2018-11-28 | 2024-01-26 | 建科机械(天津)股份有限公司 | Net welding machine |
CN111570681A (en) * | 2020-04-29 | 2020-08-25 | 建科机械(天津)股份有限公司 | Trompil reinforcing bar blanking mechanism and mesh welding machine blanking system |
CN111570681B (en) * | 2020-04-29 | 2024-05-03 | 建科机械(天津)股份有限公司 | Punching steel bar blanking mechanism and net welding machine blanking system |
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