CN105290591A - Trepanned transverse bar positioning device for welding trepanned steel bar mesh on mesh welding machine - Google Patents
Trepanned transverse bar positioning device for welding trepanned steel bar mesh on mesh welding machine Download PDFInfo
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- CN105290591A CN105290591A CN201510769821.6A CN201510769821A CN105290591A CN 105290591 A CN105290591 A CN 105290591A CN 201510769821 A CN201510769821 A CN 201510769821A CN 105290591 A CN105290591 A CN 105290591A
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- horizontal bar
- perforate
- stirring
- mesh
- chute
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K11/00—Resistance welding; Severing by resistance heating
- B23K11/002—Resistance welding; Severing by resistance heating specially adapted for particular articles or work
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K11/00—Resistance welding; Severing by resistance heating
- B23K11/36—Auxiliary equipment
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K2101/00—Articles made by soldering, welding or cutting
- B23K2101/22—Nets, wire fabrics or the like
Abstract
The invention discloses a trepanned transverse bar positioning device for welding a trepanned steel bar mesh on a mesh welding machine. The trepanned transverse bar positioning device structurally comprises a plurality of conveying mechanisms, a transferring mechanism, a moving mechanism and welding electrodes. The transferring mechanism is located at the position, between the conveying mechanisms and the lower welding electrode, on the rack. Trepanned transverse bars conveyed by the conveying mechanisms are transferred into sliding grooves in the rack through the transferring mechanism and are pushed in trepanned positions of the trepanned steel bar mesh through transverse bar push plates in the sliding grooves. The transferring mechanism is then used for transferring all the trepanned transverse bars in the trepanned positions to the lower welding electrode to be welded to longitudinal bars to form the trepanned steel bar mesh. The trepanned transverse bar positioning device has the beneficial effects that production of the trepanned steel bar mesh is automatically completed on the mesh welding machine through orderly coordination of the conveying mechanisms, the transferring mechanism and the moving mechanism, and the requirement for the trepanned steel bar mesh in building and relevant industries is met. The trepanned transverse bar positioning device has the beneficial effects of being simple in structure, easy to manufacture, low in cost, convenient to maintain and stable in work.
Description
Technical field
What the present invention relates to is welded reinforcement mesh sheet on welding machine of mesh, particularly be perforate horizontal bar positioner welding machine of mesh welding perforate reinforced mesh.
Background technology
Fig. 5 is standard reinforced mesh, and described standard reinforced mesh 100 refers to the mesh sheet of the horizontal bar that length is constant and multiple same mesh sizes that the constant vertical muscle welding of length is formed.
Fig. 6 is perforate reinforced mesh, described perforate reinforced mesh 200 refer to length not wait horizontal bar or vertical muscle welding formed size of mesh opening not identical and have in mesh sheet cavity mesh sheet.
As shown in Figure 5, prior art steel bar mesh welding machine be by straightening after wire rod reinforcing bar be cut into the constant horizontal bar of length and the constant vertical muscle of length, more described horizontal bar and the welding of vertical muscle are formed the reinforced mesh of multiple same mesh size, i.e. standard reinforced mesh 100.The grid of prior art steel bar mesh welding machine production standard reinforced mesh 100 is identical and be linked to be sheet, and this reinforced mesh there will not be perforate.
At present, building is demand perforate reinforced mesh 200 as shown in Figure 6 also, namely on reinforced mesh, is occurring the first perforate 200a and the second perforate 200b.For meeting building requirements, prior art can only cut grid by artificial on the standard reinforced mesh shown in the Fig. 5 welded, and forms the perforate reinforced mesh shown in Fig. 6., there is production efficiency low in prior art production perforate reinforced mesh, cost is high, waste of material is very big and ropy defect.
Summary of the invention
The object of the invention is to the defect overcoming prior art, when vertical muscle length setting is good, the single conveying successively of a kind of perforate horizontal bar according to diverse location in perforate reinforced mesh is provided, by transfer device, transfer mechanism perforate horizontal bar is put on welding electrode according to desired location in perforate reinforced mesh after transfer device receives single perforate horizontal bar and welds with horizontal bar, there is the perforate horizontal bar positioner high welding machine of mesh of automaticity welding perforate reinforced mesh.
The technical scheme solved the problems of the technologies described above is: the perforate horizontal bar positioner a kind of welding machine of mesh welding perforate reinforced mesh, described perforate horizontal bar positioner is arranged in the frame of vertical muscle bottom, and its structure comprises: spaced multiple conveying mechanism, transfer device, the transfer mechanism with horizontal bar push pedal, the lower welding electrode that can move up and down and upper welding electrode; In the frame of described transfer device between conveying mechanism and lower welding electrode; The perforate horizontal bar of described conveying mechanism conveying is transferred in the chute be arranged in frame through transfer device, by the horizontal bar push pedal being arranged in chute perforate horizontal bar is pushed to again the position of perforate reinforced mesh perforate; The perforate horizontal bar being arranged in chute position of opening is all transferred to lower welding electrode welds with vertical muscle and forms perforate reinforced mesh by transfer device again.
Preferred version is: described transfer device comprises: in the frame vertical with perforate horizontal bar throughput direction, be hinged with the first stirring axle be parallel to each other and the second stirring axle be positioned on rear side of the first stirring axle, first stirring axle is connected rotating power source respectively with the second stirring axle, with respectively mounting structure identical and spaced multiple first stirring hook and the second stirring hook on the second stirring axle on the first stirring axle; Under rotating power source drives, the perforate horizontal bar received from conveying mechanism is held up rotation and is transferred in chute, in the frame of this chute between the first stirring axle and the second stirring axle by the first stirring hook on the first stirring axle; Described horizontal bar push pedal is arranged in chute, and the reciprocal transfer driving mechanism drive horizontal bar push pedal be arranged on transfer mechanism is transplanted on the perforate horizontal bar position in perforate reinforced mesh along chute promotion perforate horizontal bar; Again under rotating power source drives, then the perforate horizontal bar being arranged in chute all held up rotation by the second stirring hook on the second stirring axle and be transferred on lower welding electrode and weld with vertical muscle.
Preferred version is: described conveying mechanism comprises: conveying motor, and the sprocket shaft (22) connecting conveying motor is hinged in the frame vertical with perforate horizontal bar throughput direction, and on sprocket shaft, multiple drive sprocket is installed at interval; Driven sprocket is hinged in the frame parallel with perforate horizontal bar throughput direction; Chain is sleeved on drive sprocket and driven sprocket, and on chain lateral surface, multiple V-type supporting plate is fixed at interval, multiple V-type pallet support perforate horizontal bar.
Preferred version is: the multipair stirring bracing frame being set with specular on described first stirring axle and the second stirring axle, and described stirring bracing frame is all fixed in frame; On the first stirring axle between every a pair stirring bracing frame He on the second stirring axle, the first stirring hook and the second stirring hook are installed respectively; Every a pair stirring bracing frame is respectively arranged with groove, and groove, between the first stirring axle and the second stirring axle, groove is fixed in its chute end outside two respectively; The end face of every a pair stirring bracing frame of connecting groove both sides is respectively arcwall face, and the shape of this arcwall face is beneficial to the first stirring hook and the second stirring hook and rotates and can fall in chute smoothly after the perforate horizontal bar held up drops to arcwall face and fall on lower welding electrode.
Preferred version is: the original state of described first stirring hook is: the crotch end of the first stirring hook is positioned at and is transferred mechanism and moves the perforate horizontal bar of conveying from moving horizontally the bottom turning to turning, is convenient to the single perforate horizontal bar that the first stirring hook holds up and is transferred to respectively in chute; The original state of described second stirring hook is: the crotch end of the second stirring hook is positioned at the bottom of chute, is convenient to the second stirring hook and holds up whole perforate horizontal bars and be transferred on lower welding electrode.
Preferred version is: described horizontal bar push pedal is cylinder, and the end face of horizontal bar push pedal promotes perforate horizontal bar and transfers in chute; One end of fixed connecting plate in the outer rim of horizontal bar push pedal, the connecting plate other end connects the reciprocal transfer driving mechanism on transfer mechanism.
Preferred version is: described transfer mechanism is arranged in the frame vertical with perforate horizontal bar throughput direction; Reciprocal transfer driving mechanism on transfer mechanism comprises: be arranged on the Timing Belt motor in frame, and Timing Belt motor output shaft connects driving pulley, and Timing Belt is sleeved on driving pulley and driven pulley, and driven pulley is hinged in frame
The invention has the beneficial effects as follows: the present invention overcomes the defect of prior art, the present invention is coordinated in order by conveying mechanism, transfer device, transfer mechanism under control system controls, automation the horizontal bar that perforate horizontal bar is located and length the is constant location of perforate reinforced mesh can be completed on welding machine of mesh, qualified perforate reinforced mesh can be produced on welding machine of mesh, the perforate reinforced mesh of building and relevant industries demand can be met; It is simple that the present invention has structure, and easily manufacture, cost is low, easy to maintenance, the advantage of stable working.
Accompanying drawing explanation
Fig. 1 is stereogram of the present invention;
Fig. 2 is the top view of Fig. 1;
Fig. 3 is A-A sectional view in Fig. 2, and A-A analyses and observe and cuts open in the middle of a pair stirring bracing frame;
Fig. 4 is the stereogram of transfer mechanism in Fig. 1;
Fig. 5 is standard reinforced mesh schematic diagram;
Fig. 6 is perforate reinforced mesh schematic diagram.
" in accompanying drawing, sequence number illustrates "
1: frame; 2: vertical muscle; 3: horizontal bar; 3a: the first perforate horizontal bar; 3b: the second perforate horizontal bar; 3c: the three perforate horizontal bar; 10a: the first rotates stirring cylinder; 10b: the second rotates stirring cylinder; 11a: the first stirring axle; 11b: the second stirring axle; 12a: the first stirring hook; 12b: the second stirring hook;
20: driven sprocket; 21:V type supporting plate; 22: sprocket shaft; 23: drive sprocket; 24: conveying motor; 25: chain; 30: Timing Belt motor; 31: driving pulley; 32: connecting plate; 33: horizontal bar push pedal; 34: Timing Belt; 35: driven pulley; 51: lower welding electrode; 52: upper welding electrode;
61: stirring bracing frame; 61a: the first arcwall face; 61b: chute; 61c: the second arcwall face; 61d: groove;
100: standard reinforced mesh; 200: perforate reinforced mesh; 200a: the first perforate; 200b: the second perforate; 300: conveying mechanism; 400: transfer device; 500: transfer mechanism;
J: perforate horizontal bar throughput direction; B-B: first row perforate horizontal bar.
Detailed description of the invention
Below in conjunction with accompanying drawing, embodiments of the invention are described in further detail.
The invention provides the perforate horizontal bar positioner a kind of welding machine of mesh welding perforate reinforced mesh, described perforate horizontal bar positioner is arranged in the frame 1 of vertical muscle 2 bottom, and its structure comprises: spaced multiple conveying mechanism 300, transfer device 400, the transfer mechanism 500 with horizontal bar push pedal 33, the lower welding electrode 51 that can move up and down and upper welding electrode 52; In the frame 1 of described transfer device 400 between conveying mechanism 300 and lower welding electrode 51.
The first perforate horizontal bar 3a, the second perforate horizontal bar 3b that described conveying mechanism 300 is carried and the 3rd perforate horizontal bar 3c are transferred in the chute 61b be arranged in frame 1 through transfer device 400, by the horizontal bar push pedal 33 being arranged in chute 61b the first perforate horizontal bar 3a, the second perforate horizontal bar 3b and the 3rd perforate horizontal bar 3c be pushed to respectively again the position of perforate reinforced mesh 200 perforate; The first perforate horizontal bar 3a, the second perforate horizontal bar 3b and the 3rd perforate horizontal bar 3c that are arranged in chute 61b position of opening are all transferred to lower welding electrode 51 welds with vertical muscle 2 and form perforate reinforced mesh 200 by transfer device 400 again.
Described transfer device 400 comprises: in the frame 1 vertical with perforate horizontal bar throughput direction J, be hinged with the first stirring axle 11a be parallel to each other and the second stirring axle 11b be positioned on rear side of the first stirring axle 11a, first stirring axle 11a and the second stirring axle 11b are connected the first rotation stirring cylinder 10a and second respectively and rotate stirring cylinder 10b, distinguish the identical and spaced multiple first stirring hook 12a and the second stirring hook 12b of mounting structure on the first stirring axle 11a and on the second stirring axle 11b; Under rotating stirring cylinder 10a driving first, the the first perforate horizontal bar 3a, the second perforate horizontal bar 3b that receive from conveying mechanism 300 successively and the 3rd perforate horizontal bar 3c are held up rotation and are transferred to chute 61b by the first stirring hook 12a on the first stirring axle 11a respectively, in the frame 1 of this chute 61b between the first stirring axle 11a and the second stirring axle 11b; Described horizontal bar push pedal 33 is arranged in chute 61b, and the reciprocal transfer driving mechanism be arranged on transfer mechanism 500 drives horizontal bar push pedal 33 to promote the first perforate horizontal bar 3a, the second perforate horizontal bar 3b and the 3rd perforate horizontal bar 3c respectively along chute 61b and is transplanted on the first perforate horizontal bar 3a, the second perforate horizontal bar 3b in perforate reinforced mesh 200 and the 3rd perforate horizontal bar 3c position; Under rotating stirring cylinder 10b driving second again, by the second stirring hook 12b on the second stirring axle 11b, the first perforate horizontal bar 3a, the second perforate horizontal bar 3b and the 3rd perforate horizontal bar 3c that are arranged in chute 61b all being held up rotation is again transferred on lower welding electrode 51, under lower cylinder (not shown) promotes, welding electrode 51 moves up and the first perforate horizontal bar 3a, the second perforate horizontal bar 3b and the 3rd perforate horizontal bar 3c is contacted with vertical muscle 2, and upper cylinder (not shown) promotes upper welding electrode 52 and welds to moving down the vertical muscle 2 of contact.
Described conveying mechanism 300 comprises: conveying motor 24, and the sprocket shaft 22 connecting conveying motor 24 is hinged in the frame 1 vertical with perforate horizontal bar throughput direction J, and on sprocket shaft 22, multiple drive sprocket 23 is installed at interval; Driven sprocket 20 is hinged in the frame 1 parallel with perforate horizontal bar throughput direction J; Chain 25 is sleeved on drive sprocket 23 and driven sprocket 20, and on chain 25 lateral surface, multiple V-type supporting plate 21 is fixed at interval, and multiple V-type supporting plate 21 supports the first perforate horizontal bar 3a, the second perforate horizontal bar 3b and the 3rd perforate horizontal bar 3c.
Described first stirring axle 11a and the second stirring axle 11b are set with the multipair stirring bracing frame 61 of specular, and described stirring bracing frame 61 is all fixed in frame 1; On the first stirring axle 11a between every a pair stirring bracing frame 61 He on the second stirring axle 11b, the first stirring hook 12a and the second stirring hook 12b is installed respectively; Every a pair stirring bracing frame 61 is respectively arranged with groove 61d, and groove 61d, between the first stirring axle 11a and the second stirring axle 11b, groove 61d is fixed in its chute 61b end outside two respectively; The end face of every a pair stirring bracing frame 61 of connecting groove 61d both sides is respectively the first arcwall face 61a and the second arcwall face 61c, and the shape of this first arcwall face 61a and the second arcwall face 61c is beneficial to the first stirring hook 12a and the second stirring hook 12b and rotates and can fall in chute 61b respectively smoothly after the first perforate horizontal bar 3a, the second perforate horizontal bar 3b that hold up and the 3rd perforate horizontal bar 3c drop to the first arcwall face 61a and the second arcwall face 61c and fall on lower welding electrode 51.
The original state of described first stirring hook 12a is: the crotch end of the first stirring hook 12a is positioned at and is transferred mechanism 300 and moves the first perforate horizontal bar 3a, the second perforate horizontal bar 3b of conveying and the 3rd perforate horizontal bar 3c from moving horizontally the bottom turning to turning, is convenient to the first stirring hook 12a and holds up single first perforate horizontal bar 3a, the second perforate horizontal bar 3b and the 3rd perforate horizontal bar 3c and be transferred in chute 61b respectively; The original state of described second stirring hook 12b is: the crotch end of the second stirring hook 12b is positioned at the bottom of chute 61b, is convenient to the second stirring hook 12b and holds up whole the first perforate horizontal bar 3a, the second perforate horizontal bar 3b and the 3rd perforate horizontal bar 3c is transferred on lower welding electrode 51 simultaneously.
Described horizontal bar push pedal 33 is cylinder, and the end face of horizontal bar push pedal 33 promotes the first perforate horizontal bar 3a, the second perforate horizontal bar 3b and the 3rd perforate horizontal bar 3c transfers in chute 61b; One end of fixed connecting plate 32 in the outer rim of horizontal bar push pedal 33, connecting plate 32 other end connects the reciprocal transfer driving mechanism on transfer mechanism 500.
Described transfer mechanism 500 is arranged in the frame 1 vertical with perforate horizontal bar throughput direction J; Reciprocal transfer driving mechanism on transfer mechanism 500 comprises: be arranged on the Timing Belt motor 30 in frame 1, Timing Belt motor 30 output shaft connects driving pulley 31, Timing Belt 34 is sleeved on driving pulley 31 and driven pulley 35, and driven pulley 35 is hinged in frame 1.
Below the course of work of the present invention is explained as follows:
As shown in Figure 6, in perforate reinforced mesh 200, be provided with the first perforate 200a and the second perforate 200b, the first perforate 200a and the second perforate 200b is made up of the perforate horizontal bar 3a on multiple rows of openings horizontal bar B-B, the second perforate horizontal bar 3b and the 3rd perforate horizontal bar 3c.
(1), below the perforate horizontal bar positioning step in the perforate reinforced mesh 200 shown in Fig. 6 is explained as follows:
1), carry according to the position arranged from left to right shown in first row perforate horizontal bar B-B in perforate reinforced mesh 200: as shown in Figure 1, select the conveying mechanism 300 closing on horizontal bar push pedal 33 to place the 3rd perforate horizontal bar 3c, the second perforate horizontal bar 3b and the first perforate horizontal bar 3a successively, described three perforate horizontal bars are disposed on conveying mechanism 300;
2), start conveying mechanism 300, carry the 3rd perforate horizontal bar 3c along perforate horizontal bar throughput direction J;
3), start the first rotation stirring cylinder 10a work in transfer device 400, drive the first stirring axle 11a and the first stirring hook 12a to rotate; When the first stirring hook 12a catch and hold up carry from conveying mechanism 300 the 3rd perforate horizontal bar 3c come after overturn with the first stirring axle 11a, 3rd perforate horizontal bar 3c falls into chute 61b drop to the first arcwall face 61a after the first stirring hook 12a upset after smoothly;
4), start Timing Belt motor 30 in transfer mechanism 500 to work, after driving Timing Belt 34 to drive fixed connecting plate 32 and horizontal bar push pedal 33 the 3rd perforate horizontal bar 3c moved in promotion chute 61b to be moved to the left to the most left position of perforate reinforced mesh 200 first row perforate horizontal bar B-B along chute 61b, Timing Belt motor 30 stops returning, and horizontal bar push pedal 33 returns initial position;
5), carry, pass on the same step 3) of the second perforate horizontal bar 3b action, do simple declaration below: now conveying mechanism 300 continus convergence second perforate horizontal bar 3b, the first stirring hook 12a is transferred in chute 61b after catching the second perforate horizontal bar 3b;
6) the same step 4) of the second perforate horizontal bar 3b action, is transferred, do simple declaration below: start transfer mechanism 500, after the second perforate horizontal bar 3b to the perforate reinforced mesh 200 first row perforate horizontal bar B-B centre position promoted in chute 61b is moved in horizontal bar push pedal 33, Timing Belt motor 30 stops returning, and horizontal bar push pedal 33 returns initial position;
7), carry, pass on the same step 3) of the first perforate horizontal bar 3a action, do simple declaration below: owing to carrying the first perforate horizontal bar 3a position to be just in time positioned at perforate reinforced mesh 200 first row perforate horizontal bar B-B least significant, do not need transfer;
8) the second rotation stirring cylinder 10b work in transfer device 400, is started, the second stirring axle 11b and the second stirring hook 12b is driven to rotate, 3rd perforate horizontal bar 3c, the second perforate horizontal bar 3b of chute 61b and the first perforate horizontal bar 3a are held up upset by multiple second stirring hook 12b simultaneously, 3rd perforate horizontal bar 3c, the second perforate horizontal bar 3b and the first perforate horizontal bar 3a drop to the second arcwall face 61c after the second stirring hook 12b overturns, and fall into the lower welding electrode 51 be arranged in V-type groove smoothly;
9), lower welding electrode 51 by lower cylinder (not shown) lift make the 3rd perforate horizontal bar 3c, the second perforate horizontal bar 3b contacts vertical muscle 2 respectively with the first perforate horizontal bar 3a, upper welding electrode 52 is promoted to be depressed into solder joint downwards by upper cylinder (not shown) and welds;
The welding process of other perforate horizontal bar is the same, in this description will be omitted.
(2), below the positioning step of the constant horizontal bar 3 of the length shown in Fig. 6 is explained as follows:
As shown in Figure 6, horizontal bar 3 positioning step that in perforate reinforced mesh 200, length is constant is as follows:
Horizontal bar 3 is carried by the multiple conveying mechanisms 300 be set up in parallel, and after the first stirring hook 12a in transfer device 400 receives horizontal bar 3, start the first stirring axle 11a and the first stirring hook 12a and rotate picking-up, horizontal bar 3 is fallen in chute 61b; Restart the second stirring axle 11b and the second stirring hook 12b and rotate picking-up, horizontal bar 3 is fallen on lower welding electrode 51;
Lower welding electrode 51 is lifted by lower cylinder (not shown) and is made horizontal bar 3 contact vertical muscle 2 respectively, and upper welding electrode 52 is promoted to be depressed into solder joint downwards by upper cylinder (not shown) and welds.
The location of the horizontal bar 3 that length is constant does not need transfer mechanism 500 to work.
Claims (7)
1. a welding machine of mesh welds the perforate horizontal bar positioner of perforate reinforced mesh, it is characterized in that, described perforate horizontal bar positioner is arranged in the frame (1) of vertical muscle (2) bottom, and its structure comprises: spaced multiple conveying mechanism (300), transfer device (400), the transfer mechanism (500) with horizontal bar push pedal (33), the lower welding electrode (51) that can move up and down and upper welding electrode (52); Described transfer device (400) is positioned in the frame (1) between conveying mechanism (300) and lower welding electrode (51); The perforate horizontal bar (3a, 3b, 3c) that described conveying mechanism (300) is carried is transferred in the chute (61b) be arranged in frame (1) through transfer device (400), by the horizontal bar push pedal (33) being arranged in chute (61b) perforate horizontal bar (3a, 3b, 3c) is pushed to again the position of perforate reinforced mesh (200) perforate; The perforate horizontal bar (3a, 3b, 3c) being arranged in chute (61b) position of opening is all transferred to upper the welding with vertical muscle (2) of lower welding electrode (51) and forms perforate reinforced mesh (200) by transfer device (400) again.
2. according to the perforate horizontal bar positioner welding machine of mesh described in claim 1 welding perforate reinforced mesh, it is characterized in that, described transfer device (400) comprising: in the frame (1) vertical with perforate horizontal bar throughput direction (J), be hinged with the first stirring axle (11a) be parallel to each other and the second stirring axle (11b) being positioned at the first stirring axle (11a) rear side, first stirring axle (11a) is connected rotating power source respectively with the second stirring axle (11b), at the first stirring axle (11a), upper and the second stirring axle (11b) is upper distinguishes mounting structure identical and spaced multiple first stirring hook (12a) and the second stirring hook (12b), under rotating power source drives, the perforate horizontal bar (3a, 3b, 3c) received from conveying mechanism (300) is held up rotation and is transferred to chute (61b) by the first stirring hook (12a) on the first stirring axle (11a), and this chute (61b) is positioned in the frame (1) between the first stirring axle (11a) and the second stirring axle (11b), described horizontal bar push pedal (33) is arranged in chute (61b), and the reciprocal transfer driving mechanism be arranged on transfer mechanism (500) drives horizontal bar push pedal (33) to promote perforate horizontal bar (3a, 3b, 3c) along chute (61b) and is transplanted on perforate horizontal bar (3a, 3b, 3c) position in perforate reinforced mesh (200), again under rotating power source drives, then the perforate horizontal bar (3a, 3b, 3c) that will be arranged in chute (61b) by the second stirring hook (12b) on the second stirring axle (11b) all holds up rotation and is transferred to lower welding electrode (51) and goes up and weld with vertical muscle (2).
3. according to the perforate horizontal bar positioner welding machine of mesh described in claim 1 welding perforate reinforced mesh, it is characterized in that, described conveying mechanism (300) comprising: conveying motor (24), the sprocket shaft (22) connecting conveying motor (24) is hinged in the frame (1) vertical with perforate horizontal bar throughput direction (J), installs multiple drive sprocket (23) at the upper interval of sprocket shaft (22); Driven sprocket (20) is hinged in the frame (1) parallel with perforate horizontal bar throughput direction (J); Chain (25) is sleeved on drive sprocket (23) and driven sprocket (20), on chain (25) lateral surface, multiple V-type supporting plate (21) is fixed at interval, and multiple V-type supporting plate (21) supports perforate horizontal bar (3a, 3b, 3c).
4. according to the perforate horizontal bar positioner welding machine of mesh described in claim 1 welding perforate reinforced mesh, it is characterized in that, described first stirring axle (11a) and the second stirring axle (11b) are set with the multipair stirring bracing frame (61) of specular, and described stirring bracing frame (61) is all fixed in frame (1); The first stirring axle (11a) between every a pair stirring bracing frame (61) above and on the second stirring axle (11b) installs the first stirring hook (12a) and the second stirring hook (12b) respectively; Every a pair stirring bracing frame (61) is respectively arranged with groove (61d), groove (61d) is positioned between the first stirring axle (11a) and the second stirring axle (11b), and groove (61d) is fixed in its chute (61b) end outside two respectively; The end face of every a pair stirring bracing frame (61) of connecting groove (61d) both sides is respectively arcwall face (61a, 61c), this arcwall face (61a, shape 61c) is beneficial to the first stirring hook (12a) and the second stirring hook (12b) and rotates and can fall in chute (61b) smoothly after the perforate horizontal bar (3a, 3b, 3c) held up drops to arcwall face (61a, 61c) and fall on lower welding electrode (51).
5. according to the perforate horizontal bar positioner welding machine of mesh described in claim 1 welding perforate reinforced mesh, it is characterized in that, the original state of described first stirring hook (12a) is: the crotch end of the first stirring hook (12a) be positioned at be transferred the mobile conveying of mechanism (300) perforate horizontal bar (3a, 3b, 3c) from moving horizontally the bottom turning to turning, be convenient to the single perforate horizontal bar (3a, 3b, 3c) that the first stirring hook (12a) holds up and be transferred in chute (61b) respectively; The original state of described second stirring hook (12b) is: the crotch end of the second stirring hook (12b) is positioned at the bottom of chute (61b), is convenient to the second stirring hook (12b) and holds up whole perforate horizontal bars (3a, 3b, 3c) and be transferred on lower welding electrode (51).
6. according to the perforate horizontal bar positioner welding machine of mesh described in claim 1 welding perforate reinforced mesh, it is characterized in that, described horizontal bar push pedal (33) is cylinder, and the end face of horizontal bar push pedal (33) promotes perforate horizontal bar (3a, 3b, 3c) and transfers in chute (61b); One end of fixed connecting plate (32) in the outer rim of horizontal bar push pedal (33), connecting plate (32) other end connects the reciprocal transfer driving mechanism on transfer mechanism (500).
7. according to the perforate horizontal bar positioner welding machine of mesh described in claim 1 and 6 welding perforate reinforced mesh, it is characterized in that, described transfer mechanism (500) is arranged in the frame (1) vertical with perforate horizontal bar throughput direction (J); Reciprocal transfer driving mechanism on transfer mechanism (500) comprises: be arranged on the Timing Belt motor (30) in frame (1), Timing Belt motor (30) output shaft connects driving pulley (31), Timing Belt (34) is sleeved on driving pulley (31) and driven pulley (35), and driven pulley (35) is hinged in frame (1).
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201510769821.6A CN105290591B (en) | 2015-11-12 | 2015-11-12 | The perforate horizontal bar positioner of perforate reinforced mesh is welded on welding machine of mesh |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201510769821.6A CN105290591B (en) | 2015-11-12 | 2015-11-12 | The perforate horizontal bar positioner of perforate reinforced mesh is welded on welding machine of mesh |
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| CN105290591A true CN105290591A (en) | 2016-02-03 |
| CN105290591B CN105290591B (en) | 2017-05-31 |
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| CN105965141A (en) * | 2016-06-04 | 2016-09-28 | 北京工业大学 | Netty prestress high-strength concrete pipe pile netty reinforcement cage roll welding system device |
| CN106001880A (en) * | 2016-06-04 | 2016-10-12 | 北京工业大学 | Netty high strength prestressed concrete square tubular pile steel mesh reinforcement cage roll welding system device |
| CN107520567A (en) * | 2017-09-27 | 2017-12-29 | 天津市科华焊接设备有限公司 | Based on cloth, weld and go out the mesh sheet welding composite tooling that net is integrated |
| CN111036805A (en) * | 2019-12-30 | 2020-04-21 | 湖南三一快而居住宅工业有限公司 | Method and equipment for processing reinforcing mesh |
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| CN111451419A (en) * | 2020-05-25 | 2020-07-28 | 安徽马钢比亚西钢筋焊网有限公司 | Short warp feeding method for hollow welding net |
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| CN105965141A (en) * | 2016-06-04 | 2016-09-28 | 北京工业大学 | Netty prestress high-strength concrete pipe pile netty reinforcement cage roll welding system device |
| CN106001880A (en) * | 2016-06-04 | 2016-10-12 | 北京工业大学 | Netty high strength prestressed concrete square tubular pile steel mesh reinforcement cage roll welding system device |
| CN106001880B (en) * | 2016-06-04 | 2018-05-08 | 北京工业大学 | A kind of netted prestress high intensity concrete square shape pile pile steel mesh reinforcement cage roll welding system and device |
| CN105965141B (en) * | 2016-06-04 | 2018-05-08 | 北京工业大学 | A kind of netted prestressed high-strength concrete pile steel mesh reinforcement cage roll welding system and device |
| CN107520567A (en) * | 2017-09-27 | 2017-12-29 | 天津市科华焊接设备有限公司 | Based on cloth, weld and go out the mesh sheet welding composite tooling that net is integrated |
| CN111036805A (en) * | 2019-12-30 | 2020-04-21 | 湖南三一快而居住宅工业有限公司 | Method and equipment for processing reinforcing mesh |
| CN111036806A (en) * | 2019-12-30 | 2020-04-21 | 湖南三一快而居住宅工业有限公司 | Net production line |
| CN111451419A (en) * | 2020-05-25 | 2020-07-28 | 安徽马钢比亚西钢筋焊网有限公司 | Short warp feeding method for hollow welding net |
| CN111451419B (en) * | 2020-05-25 | 2021-07-23 | 安徽马钢比亚西钢筋焊网有限公司 | Short warp feeding method for hollow welding net |
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