CN103978129B - Vertical mesh frame forming machine production line - Google Patents
Vertical mesh frame forming machine production line Download PDFInfo
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- CN103978129B CN103978129B CN201410234557.1A CN201410234557A CN103978129B CN 103978129 B CN103978129 B CN 103978129B CN 201410234557 A CN201410234557 A CN 201410234557A CN 103978129 B CN103978129 B CN 103978129B
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- conveyer device
- galvanized wire
- conveying
- production line
- conveyer
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Abstract
The invention discloses a vertical mesh frame forming machine production line. The vertical mesh frame forming machine production line comprises a machine frame; the machine frame is provided with a horizontal conveying device; the horizontal conveying device comprises a first conveying device which is used for conveying first galvanized wires and a second conveying device which is used for conveying second galvanized wires; the second conveying device is arranged above the first conveying device; the conveying direction of the second conveying device is perpendicularly to the conveying direction of the first conveying device in the horizontal projection plane; a third conveying device which is used for conveying third galvanized wires is arranged above the horizontal conveying device; the conveying direction of the third conveying device is perpendicular to the horizontal plane. According to the vertical mesh frame forming machine production line, conveying of galvanized wires in three directions for a vertical mesh frame is achieved due to the first conveying device, the second conveying device and the third conveying device; production automation is achieved by operation such as subsequent shearing and welding; manpower is saved and the production efficiency is improved. The vertical mesh frame forming machine production line has the advantages of achieving automation of vertical mesh frame production, saving manpower and improving the production efficiency.
Description
Technical field
The present invention relates to forming machine production line technology field, more particularly, to three-dimensional grid molding machine production line.
Background technology
The inadequate automatization of equipment of the machine-shaping of existing three-dimensional grid, needs a lot of people jointly complete in production process
Become.Existing production procedure first has to process the vertical mesh sheet that intersects on welding machine of mesh, by it according to predetermined dimensions
After shearing, then the mesh sheet of shearing is arranged on three-dimensional grid bonding machine, completes the welding of three-dimensional grid.Such production needs
Artificial intervention, production efficiency is than relatively low.
Content of the invention
It is an object of the invention to provide three-dimensional grid molding machine production line, it is automatic that it achieves the production of three-dimensional grid
Change, save manpower, improve production efficiency.
For reaching this purpose, the present invention employs the following technical solutions:
Three-dimensional grid molding machine production line, including frame, frame is provided with horizontal transferring device, and horizontal transferring device includes
For conveying the first conveyer device and second conveyer device for conveying the second galvanized wire of the first galvanized wire, the second conveying dress
Setting in the top of the first conveyer device, the conveying direction of the conveying direction of the second conveyer device and the first conveyer device is in level
Vertical in perspective plane, the top of horizontal transferring device is provided with the 3rd conveyer device for conveying the 3rd galvanized wire, and the 3rd is defeated
The conveying direction sending device is perpendicular to horizontal plane.
Wherein, the discharge end of the second conveyer device is provided with the second shear, the second shear include cutter and
Control device, is provided with the feedback for the actuating signal of cutter feeds back to control device between cutter and control device
Device, the second conveyer device is provided with proximity transducer, when the second galvanized wire is transported to the position of proximity transducer, close to biography
Sensor receives position signalling, and position signalling is transferred to control device, and after control device receives position signalling, control is cut
Cut motor-driven work to cut off the second galvanized wire, feedback device will be cut off signal and feed back to control device.
Wherein, the second conveyer device also includes roller group, and one end of roller group is hinged with frame, between roller group and frame
It is provided with the spring for roller group resets, roller group is connected with the driving means for driving rolls group around gantry rotation,
After control device receives and cuts off signal, driving means are controlled to carry out driving rolls group around gantry rotation so that the second galvanized wire
Vertically fall on the first galvanized wire of the first conveyer device, then roller group is resetted by spring.
Wherein, the first conveyer device is connected with the horizontal welding tipping for being welded to the second galvanized wire on the first galvanized wire
Put, the position of horizontal welder is corresponding with the position of the second conveyer device.
Wherein, the discharge end of the 3rd conveyer device is provided with the 3rd shear for cutting off the 3rd galvanized wire, and first
Conveyer device is connected with the vertical welding device for being welded to the 3rd galvanized wire on the first galvanized wire, vertical welding device
Position is corresponding with the position of the 3rd conveyer device.
Wherein, the discharge end of the first conveyer device is provided with the first shear.
Wherein, the first conveyer device, the second conveyer device, the feed end of the 3rd conveyer device are all disposed with aligning dress
Put and discharging device.
Wherein, one end of frame is provided with the guider for rewinding and windrow.
Beneficial effects of the present invention: three-dimensional grid molding machine production line, including frame, frame is provided with horizontal feed dress
Put, horizontal transferring device includes the first conveyer device for conveying the first galvanized wire and for conveying the second galvanized wire second
Conveyer device, the second conveyer device is located at the top of the first conveyer device, the conveying direction of the second conveyer device and the first conveying
The conveying direction of device is vertical in horizontal plane, and the top of horizontal transferring device is provided with for conveying the 3rd galvanized wire
3rd conveyer device, the conveying direction of the 3rd conveyer device is perpendicular to horizontal plane.First conveyer device, the second conveyer device and
The setting of three conveyer devices, it is achieved that the conveying of the galvanized wire in three directions of three-dimensional grid, is grasped through follow-up shearing, welding etc.
Making the automatization it is achieved that producing, saving manpower, improve production efficiency, present invention achieves the production of three-dimensional grid is certainly
Dynamicization, saves manpower, improves production efficiency.
Brief description
Fig. 1 is the structure diagram of the production line of the present invention.
Fig. 2 is the structure diagram generating the three-dimensional grid that line is produced of the present invention.
Reference is as follows:
1- frame;2- first conveyer device;3- second conveyer device;4- the 3rd conveyer device;5- second shear;6-
Horizontal welder;7- the 3rd shear;8- vertical welding device;9- first shear;10- straightener;11- blowing
Device;12- guider
Specific embodiment
Further illustrate technical scheme with reference to Fig. 1 to Fig. 2 and by specific embodiment.
Three-dimensional grid molding machine production line, including frame 1, frame 1 is provided with horizontal transferring device, horizontal transferring device bag
Include the first conveyer device 2 for conveying the first galvanized wire and the second conveyer device 3 for conveying the second galvanized wire, second is defeated
Device 3 is sent to be located at the top of the first conveyer device 2, the conveying side of the conveying direction of the second conveyer device 3 and the first conveyer device 2
To in horizontal plane, vertically, the top of horizontal transferring device is provided with the 3rd conveyer device for conveying the 3rd galvanized wire
4, the conveying direction of the 3rd conveyer device 4 is perpendicular to horizontal plane.First conveyer device 2, the second conveyer device 3 and the 3rd conveying dress
Put 4 setting it is achieved that the conveying of the galvanized wire in three directions of three-dimensional grid, through the operation such as follow-up shearing, welding, realize
The automatization producing, saves manpower, improves production efficiency, present invention achieves the production automation of three-dimensional grid, section
Save manpower, improve production efficiency.
In the present embodiment, the discharge end of the second conveyer device 3 is provided with the second shear 5, and the second shear 5 includes
Cutter and control device, are provided between cutter and control device for the actuating signal of cutter is fed back to control dress
The feedback device put, the second conveyer device 3 is provided with proximity transducer, when the second galvanized wire is transported to the position of proximity transducer
When, proximity transducer receives position signalling, and position signalling is transferred to control device, and control device receives position signalling
Afterwards, cutter action is controlled to cut off the second galvanized wire, feedback device will be cut off signal and feed back to control device.Connect by changing
The position of nearly sensor, can adjust the predetermined length of the second galvanized wire, and the second shear 5 is by the second galvanized wire according to predetermined
Length sheared after, feedback device will be cut off signal and feed back to control device.
In the present embodiment, the second conveyer device 3 also includes roller group, and one end of roller group is hinged with frame 1, roller group with
It is provided with the spring for roller group resets, roller group is connected with and rotates around frame 1 for driving rolls group between frame 1
Driving means, after control device receives and cuts off signal, control driving means come driving rolls group rotate around frame 1 so that
Second galvanized wire vertically falls on the first galvanized wire of the first conveyer device 2, and then roller group is resetted by spring.Second conveying dress
Put 3 tops being located at the first conveyer device 2, when the second galvanized wire is transported to the top of the first galvanized wire, the second shear 5
Second galvanized wire is cut off, and signal will be cut off and feed back to control device, control device controls driving means to carry out driving rolls group
Rotate so that the second galvanized wire vertically falls on the first galvanized wire of the first conveyer device 2 around frame 1, then spring is by roller
Group resets.
In the present embodiment, the first conveyer device 2 is connected with the water for being welded to the second galvanized wire on the first galvanized wire
Downhand welding connection device 6, the position of horizontal welder 6 is corresponding with the position of the second conveyer device 3.Horizontal welder 6 is by
Two galvanized wires are welded on the first galvanized wire, form the semi-finished product of mesh sheet shape.
In the present embodiment, the discharge end of the 3rd conveyer device 4 is provided with the 3rd shearing dress for cutting off the 3rd galvanized wire
Put 7, the first conveyer device 2 is connected with the vertical welding device 8 for being welded to the 3rd galvanized wire on the first galvanized wire, vertically
The position of welder 8 is corresponding with the position of the 3rd conveyer device 4.3rd shear 7 is by the 3rd galvanized wire according to predetermined
Length sheared, the 3rd galvanized wire after cutting off vertically fall into the first galvanized wire and the second galvanized wire welding after formed net
On the semi-finished product of lamellar, then by vertical welding device 8, the 3rd galvanized wire is welded on the first galvanized wire, obtains three-dimensional grid knot
Structure.Preferably, the 3rd shear 7 and vertical welding device 8 all include control system it is achieved that shearing and welding automatic
Change.
In the present embodiment, the discharge end of the first conveyer device 2 is provided with the first shear 9.Weld the stereoscopic graticule completing
Frame structure is sheared according to predetermined length by the first shear 9, obtains the finished product of three-dimensional grid after cutting off.Preferably,
First shear 9 include control device it is achieved that shearing automatization.
In the present embodiment, the first conveyer device 2, the second conveyer device 3, the feed end of the 3rd conveyer device 4 all set successively
It is equipped with straightener 10 and discharging device 11.Discharging device 11 is located at the front of straightener 10, after discharging device 11 blowing, plating
Zinc silk is aligned via straightener 10, and the galvanized wire after aligning enters conveyer device.Preferably, discharging device 11 adopts pneumatic dress
Put driving, straightener 10 adopts Motor drive.One end of frame 1 is provided with the guider 12 for rewinding and windrow.Lead
It is used for rewinding and the windrow of three-dimensional grid finished product to device 12.
Above content is only presently preferred embodiments of the present invention, for those of ordinary skill in the art, according to the present invention's
Thought, all will change in specific embodiments and applications, and this specification content should not be construed as to the present invention
Restriction.
Claims (6)
1. three-dimensional grid molding machine production line, including frame (1), described frame (1) is provided with horizontal transferring device, described level
Conveyer device includes the first conveyer device (2) for conveying the first galvanized wire and the second conveying for conveying the second galvanized wire
Device (3) it is characterised in that described second conveyer device (3) be located at described first conveyer device (2) top, described second
The conveying direction of conveyer device (3) is vertical in horizontal plane with the conveying direction of described first conveyer device (2), described water
The top of flat conveyer device is provided with the 3rd conveyer device (4) for conveying the 3rd galvanized wire, described 3rd conveyer device (4)
Conveying direction perpendicular to horizontal plane, the discharge end of described second conveyer device (3) is provided with the second shear (5), described
Second shear (5) includes cutter and control device, is provided with for inciting somebody to action between described cutter and described control device
The actuating signal of cutter feeds back to the feedback device of described control device, and described second conveyer device (3) is provided with close to biography
Sensor, when the second galvanized wire is transported to the position of described proximity transducer, described proximity transducer receives position signalling, and
Described position signalling is transferred to described control device, after described control device receives described position signalling, cuts described in control
Cut motor-driven work to cut off the second galvanized wire, described feedback device will be cut off signal and feed back to described control device, described second is defeated
Device (3) is sent also to include roller group, one end of described roller group is hinged with described frame (1), described roller group and described frame
(1) be provided with the spring for described roller group resets between, described roller group be connected with for drive described roller group around
The driving means that described frame (1) rotates, receive when described control device described in after cut off signal, control described driving means
Described roller group is driven to rotate so that the second galvanized wire vertically falls in described first conveyer device (2) around described frame (1)
On first galvanized wire, then described roller group is resetted by described spring.
2. three-dimensional grid molding machine production line according to claim 1 is it is characterised in that described first conveyer device (2)
It is connected with the horizontal welder (6) for being welded to the second galvanized wire on the first galvanized wire, described horizontal welder (6)
Position corresponding with the position of described second conveyer device (3).
3. three-dimensional grid molding machine production line according to claim 1 is it is characterised in that described 3rd conveyer device (4)
Discharge end be provided with the 3rd shear (7) for cutting off the 3rd galvanized wire, described first conveyer device (2) is connected with use
In the vertical welding device (8) being welded to the 3rd galvanized wire on the first galvanized wire, the position of described vertical welding device (8) with
The position of described 3rd conveyer device (4) is corresponding.
4. three-dimensional grid molding machine production line according to claim 1 is it is characterised in that described first conveyer device (2)
Discharge end be provided with the first shear (9).
5. three-dimensional grid molding machine production line according to claim 1 it is characterised in that described first conveyer device (2),
Described second conveyer device (3), the feed end of described 3rd conveyer device (4) are all disposed with straightener (10) and blowing
Device (11).
6. three-dimensional grid molding machine production line according to claim 1 is it is characterised in that one end of described frame (1) sets
It is equipped with the guider (12) for rewinding and windrow.
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CN201410234557.1A CN103978129B (en) | 2014-05-29 | 2014-05-29 | Vertical mesh frame forming machine production line |
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CN201410234557.1A CN103978129B (en) | 2014-05-29 | 2014-05-29 | Vertical mesh frame forming machine production line |
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CN103978129A CN103978129A (en) | 2014-08-13 |
CN103978129B true CN103978129B (en) | 2017-01-18 |
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Citations (1)
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CN203917737U (en) * | 2014-05-29 | 2014-11-05 | 阿博建材(昆山)有限公司 | Three-dimensional grid forming machine production line |
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GB1326142A (en) * | 1970-07-02 | 1973-08-08 | Debry M | Machine for the automatic continuous manufacture of re inforcements |
CN85104118B (en) * | 1985-05-30 | 1988-05-11 | 国际西斯姆公司 | Assembling method and its machine of three dimensional metal frame, and each kind of frame obtained with this method |
CN2561547Y (en) * | 2002-09-03 | 2003-07-23 | 张晶廷 | Three-dimensional net welder of cross-linked net |
CN101214524B (en) * | 2008-01-16 | 2012-02-22 | 武汉华之洋光电系统有限责任公司 | Integrated steel wire forming table shaping apparatus |
EP2582485B1 (en) * | 2010-06-18 | 2015-05-06 | A.W.M. S.p.A. | Method for feeding installations for automatically forming of electro-welded metal nets having special contoured shapes with whole bars or rods of steel in the longitudinal direction and associated apparatus for said productions |
CN201900204U (en) * | 2010-11-06 | 2011-07-20 | 西北机器有限公司 | Photoelectric filament cutting machine |
CN103639331B (en) * | 2013-11-20 | 2015-12-09 | 江苏天舜金属材料集团有限公司 | A kind of reinforced mesh braiding unit |
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CN203917737U (en) * | 2014-05-29 | 2014-11-05 | 阿博建材(昆山)有限公司 | Three-dimensional grid forming machine production line |
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