CN103386543A - Random moving type vertical bar wire feeding mechanism for steel bar net welding production line - Google Patents

Abstract

The invention discloses a random moving type vertical bar wire feeding mechanism for a steel bar net welding production line. The random moving type vertical bar wire feeding mechanism comprises a machine frame and a cross beam, wherein a plurality of vertical bar clamping devices are arranged on the cross beam, one sides of the vertical bar clamping devices are provided with a moving sliding mechanism and a locking mechanism, the other sides of the vertical bar clamping devices are connected with a welding electrode main machine, the moving sliding mechanism comprises a rolling wheel and a guide rail, the locking mechanism comprises a vertical bar braking plate, a driving plate and a driving shaft, the driving plate is fixed on the driving shaft, and under the driving effect of a motive power source, the driving shaft drives one end of the driving plate to rotate for pushing a cantilever plate arranged at the other end of the vertical bar braking plate to tightly press and fix/release the cross beam. The random moving type vertical bar wire feeding mechanism has the beneficial effects that the vertical bar clamping devices can be regulated along with the space of the welding electrode main machine through moving the sliding mechanism, the vertical bar clamping devices realize the locking fixation through the locking mechanism, and the random and adjustable vertical bar conveyance of the vertical bar clamping devices is realized.

Description

The random movable type of reinforcing mesh welding production line is indulged the muscle wire feeder

Technical field

What the present invention relates to is the vertical muscle wire feeder of reinforcing mesh welding production line, particularly be the vertical muscle wire feeder of random movable type of reinforcing mesh welding production line.

Background technology

The vertical muscle wire feeder that the reinforcing mesh welding production line of prior art comprises, vertical muscle wire feeder comprises: two symmetrically arranged frames, in frame two arranged outside, slide block is arranged, this slide block slides on guide rail; At crossbeam of the inboard connection of frame, be provided with coattail board on this crossbeam, the vertical muscle clamping device that a plurality of intervals arrange is installed on coattail board, an end of each vertical muscle clamping device is fixed on coattail board by briquetting and screw, and the other end of each vertical muscle clamping device clamps vertical muscle; Vertical muscle wire feeder is delivered to welding position and horizontal bar is welded into metal mesh sheet with clamped vertical muscle along guide rail under motor drives.

There is following defect in vertical muscle clamping device in above-mentioned prior art wire feeder:

, because an end of indulging the muscle clamping device is fixed on coattail board by briquetting and screw, when needs are adjusted longitudinal bar spacing, must could adjust longitudinal bar spacing by artificial loosening each briquetting and screw, the artificial adjustment exists the adjustment time long, and speed is slow, and error is large, efficiency is low, and labour intensity is large.

Summary of the invention

The object of the invention is to overcome the deficiency of above-mentioned technology, provide a kind of being provided with on vertical muscle clamping device to be convenient to mobile coasting mechanism and the mechanism that is locked, can conveniently regulate adjacent longitudinal bar spacing and coordinate the adjustment of welding electrode position of host machine to transfer afterwards the vertical muscle wire feeder of random movable type of the reinforcing mesh welding production line of vertical muscle.

The technical scheme that solves the problems of the technologies described above is: a kind of random movable type of reinforcing mesh welding production line is indulged the muscle wire feeder, and the vertical muscle wire feeder of described random movable type comprises: two frames that are parallel to each other and be connected to two crossbeams between frame; Be arranged at intervals with the identical a plurality of vertical muscle clamping device of structure on crossbeam; A side at each vertical muscle clamping device is provided with structure identical mobile coasting mechanism and retaining mechanism; Opposite side at each vertical muscle clamping device connects respectively its corresponding welding electrode main frame; Described mobile coasting mechanism includes: be hinged on the roller of each vertical muscle clamping device one side and the guide rail that support roller slides, guide rail is fixed on crossbeam; Described retaining mechanism includes: vertical muscle braking vane, drive plate and driving shaft; Described vertical muscle braking vane one end is fixed on vertical muscle clamping device one side, the vertical muscle braking vane other end is the cantilever slab with bending, this cantilever slab is between crossbeam and drive plate one end, drive plate is fixed on the driving shaft that connects power source, driving shaft drive drive plate one end rotates the cantilever slab that promotes the vertical muscle braking vane other end and is fixed/throws off crossbeam under power source drives, each vertical muscle clamping device fix/is unclamped on crossbeam, transfer vertical muscle after the adjustment of cooperation welding electrode position of host machine.

Preferred version is: driving shaft one end of described connection power source is hinged on the bearing block fixing with crossbeam, and the driving shaft other end runs through and is fixed in driving plate hole in a plurality of vertical muscle clamping device one tight mechanism of side chain; Described power source comprises: be fixed on the cylinder on crossbeam one end, the piston rod of cylinder is hinged on the drive plate other end, drive plate connects driving shaft by key, drive plate one end is fixed with the locking supporting plate, and described locking supporting plate is parallel with crossbeam and be fixed on drive plate one end of each vertical muscle clamping device one side.

Preferred version is: the structure that connects respectively its corresponding welding electrode main frame at the opposite side of described each vertical muscle clamping device comprises: the bottom of each vertical muscle clamping device is provided with clamp jaw, the top Intercalation of each vertical muscle clamping device is in the U font groove of connecting plate one end, and the connecting plate other end is fixed on described welding electrode main frame.

Preferred version is: described two frames slide along track, and described track is between welding electrode main frame and vertical muscle charge frame.

Beneficial effect of the present invention is: the present invention overcomes the defect of prior art, the vertical muscle clamping device of the present invention is connected with the welding electrode main frame, when the welding electrode spacing on the welding electrode main frame changes to some extent, vertical muscle clamping device is adjusted with welding electrode main frame spacing by mobile coasting mechanism, during vertical muscle clamping device spacing after needing fixed adjustment, utilize retaining mechanism to be locked; Realized the servo-actuated adjustable of vertical muscle clamping device; Easy to adjust, save operating personnel, reduce man-hour, and then raise labour productivity.

Description of drawings

Fig. 1 is top view of the present invention;

Fig. 2 is the B-B cutaway view of Fig. 1;

Fig. 3 is the C-C cutaway view of Fig. 2, shows the hinged drive plate of cylinder piston rod in figure and drive plate is rotated, and drive plate rotates the structural representation that drives drive shaft turns;

Fig. 4 is the A-A cutaway view of Fig. 2, the power that in figure, the display driver axle is fixed/unclamped as a plurality of vertical muscle clamping devices, drive the drive plate that does not connect cylinder and rotate after drive shaft turns, drive the locking supporting plate and rotate, make vertical muscle braking vane be adjacent to/throw off the structural representation of crossbeam.

" sequence number explanation in accompanying drawing "

1: lower electrode holder; 2: lower electrode tip; 3: vertical muscle; 4: horizontal bar; 5: upper electrode tip; 6: electrode seat powers on; 7: the welding electrode main frame; 8: connecting plate; 9: vertical muscle clamping device; 9a: clamp jaw; 10: roller; 11: the cylinder holder; 12: cylinder; 12a: piston rod; 13: crossbeam; 14: guide rail; 15: the locking supporting plate; 16: drive plate; 17: driving shaft; 18: bearing block; 19: vertical muscle braking vane; 20: frame; 21: gudgeon pin shaft; 22: key; 23: track; 24: vertical muscle charge frame; 25: upper welding electrode trave lling girder; 26: lower welding electrode trave lling girder; 30: mobile coasting mechanism; 40: retaining mechanism.

The specific embodiment

Below in conjunction with accompanying drawing, embodiments of the invention are described in further detail.

As shown in Figures 1 to 4, the invention provides a kind of vertical muscle wire feeder of random movable type of reinforcing mesh welding production line, the vertical muscle wire feeder of described random movable type comprises: two frames 20 that are parallel to each other and be connected to two crossbeams 13 between frame 20; Be arranged at intervals with the identical a plurality of vertical muscle clamping device 9 of structure on crossbeam 13; A side at each vertical muscle clamping device 9 is provided with the identical mobile coasting mechanism 30 of structure and retaining mechanism 40; Opposite side at each vertical muscle clamping device 9 connects respectively its corresponding welding electrode main frame 7.

Described mobile coasting mechanism 30 includes: be hinged on the roller 10 of each vertical muscle clamping device 9 one side and the guide rail 14 that support roller 10 slides, guide rail 14 is fixed on crossbeam 13 by securing member.

In particular, Fig. 3, shown in Figure 4, each vertical muscle clamping device 9 one side is hinged with 10, two roller 10 roll-slidings of four rolling at guide rail 14 upsides, and two other roller 10 roll-slidings are at guide rail 14 downsides.

described retaining mechanism 40 includes: vertical muscle braking vane 19, drive plate 16 and driving shaft 17, described vertical muscle braking vane 19 1 ends are fixed on vertical muscle clamping device 9 one sides, vertical muscle braking vane 19 other ends are the cantilever slabs with bending, this cantilever slab is between crossbeam 13 and drive plate 16 1 ends, drive plate 16 is fixed on the driving shaft 17 that connects power source, the cantilever slab of driving shaft 17 drive drive plate 16 1 vertical muscle braking vane 19 other ends of ends rotation promotion is pressed abd fixed on crossbeam 13 under power source drives, perhaps the cantilever slab of vertical muscle braking vane 19 other ends is thrown off crossbeam 13, make each vertical muscle clamping device 9 fix on crossbeam 13 or unclamp, transfer vertical muscle 3 after coordinating the 7 position adjustment of welding electrode main frame.

In particular, after welding electrode main frame 7 positions were adjusted, while needing to adjust spacing adaptation welding electrode main frame 7 position between a plurality of vertical muscle clamping devices 9, power source was not worked, and driving shaft 17 is motionless; Vertical muscle clamping device 9 can manually or electronic move the adjustment spacing along guide rail 14; When between the fixing a plurality of vertical muscle clamping devices 9 of needs during spacing, power source task driven axle 17 rotates, the cantilever slab that drives drive plate 16 1 vertical muscle braking vane 19 other ends of ends rotation promotion is pressed abd fixed on crossbeam 13, a plurality of vertical muscle clamping device 9 after fixed adjustment moves to after vertical muscle charge frame 24 clamps vertical muscle 3 and turns back to welding electrode main frame 7 places with frame 20, will indulge that muscle 3 is put into the welding electrode place and horizontal bar 4 welds.

Driving shaft 17 1 ends of described connection power source are hinged on the bearing block 18 fixing with crossbeam 13, and driving shaft 17 other ends run through and are fixed in drive plate 16 holes in a plurality of vertical muscle clamping device 9 one tight mechanisms 40 of side chain;

Described power source comprises: be fixed on crossbeam 13 1 ends and be fixed with cylinder holder 11, fixing cylinder 12 on cylinder holder 11, the piston rod 12a of cylinder 12 is hinged on drive plate 16 other ends by gudgeon pin shaft 21, drive plate 16 connects driving shaft 17 by key 22, drive plate 16 1 ends are fixed with locking supporting plate 15, and described locking supporting plate 15 is parallel with crossbeam 13 and be fixed on drive plate 16 1 ends of each vertical muscle clamping device 9 one side.

The structure that connects respectively its corresponding welding electrode main frame 7 at the opposite side of described each vertical muscle clamping device 9 comprises: the bottom of each vertical muscle clamping device 9 is provided with clamp jaw 9a, the top Intercalation of each vertical muscle clamping device 9 is in the U font groove of connecting plate 8 one ends, and connecting plate 8 other ends are fixed on described welding electrode main frame 7.

Described two frames 20 slide along track 23, and described track 23 is between a plurality of welding electrode main frames 7 and vertical muscle charge frame 24.

In particular, when in weld mesh crate, longitudinal bar spacing changes, must adjust the spacing between a plurality of upper electrode tips 5, the electrode seat that powers on 6 and lower electrode tip 2, lower electrode holder 1, due to electrode seat 6 connecting welding electrode main frames 7 and the upper welding electrode trave lling girder 25 of powering on, lower electrode holder 1 connects lower welding electrode trave lling girder 26, and therefore upper welding electrode trave lling girder 25 and lower welding electrode trave lling girder 26 drive respectively welding electrode main frame 7 and lower electrode holder 1 and complete the mobile of upper/lower electrode in weld mesh crate and adjust with mobile.

After the adjustment of spacing between above-mentioned a plurality of welding electrode main frames 7 is completed, between a plurality of vertical muscle clamping device 9 corresponding with a plurality of welding electrode main frames 7, spacing is adjusted thereupon, mobile coasting mechanism 30 of the present invention and retaining mechanism 40 can realize that between a plurality of vertical muscle clamping devices 9, spacing is adjusted action thereupon, and its adjustment process is as follows:

At first, retaining mechanism 40 quits work, and namely cylinder 12 quits work, and vertical muscle braking vane 19 other end cantilever slabs that are fixed on vertical muscle clamping device 9 one sides this moment are thrown off crossbeam 13;

Secondly, adopt the manual or electronic equal roller 10 of indulging on muscle clamping device 9 that can make to move left and right along the guide rail 14 on crossbeam 13, the top of each vertical muscle clamping device 9 is inserted respectively in the U font groove of connecting plate 8 one ends on each welding electrode main frame 7 corresponding with it, complete the position adjustment of vertical muscle clamping device 9 this moment;

Again, start retaining mechanism 40 and work, the piston rod of cylinder 12 stretches out driving drive plate 16 and rotates simultaneously and drive driving shaft 17 rotations by key 22 around driving shaft 17; Driving shaft 17 is fixed in drive plate 16 through holes of each vertical muscle clamping device 9 side by key 22, the drive plate 16 of each vertical muscle clamping device 9 side is driven rotation, the locking supporting plate 15 fixing with a plurality of drive plates 16 held up and is attached to crossbeam 13 bottom surfaces by a plurality of drive plates 16, each vertical muscle clamping device 9 all is fixed on crossbeam 13, thereby a plurality of vertical muscle clamping device 9 mutual spacings are fixed;

Finally, start frame 20 and slide into vertical muscle charge frame 24 places along track 23, the clamp jaw 9a of each vertical muscle clamping device 9 clamps respectively vertical muscle 3; Restarting frame 20 returns and slides into welding electrode main frame 7 places along track 23, each vertical muscle clamping device 9 is inserted in the U font groove of connecting plate 8 one ends, the vertical muscle 3 of being transferred is put into the position of welding with horizontal bar 4 between upper electrode tip 5 and lower electrode tip 2, completes the vertical muscle of the present invention and transfers task.

Claims (4)

1. the vertical muscle wire feeder of the random movable type of a reinforcing mesh welding production line, is characterized in that, the vertical muscle wire feeder of described random movable type comprises: two frames (20) that are parallel to each other and be connected to crossbeam (13) between two frames (20), be arranged at intervals with the identical a plurality of vertical muscle clamping device (9) of structure on crossbeam (13), a side at each vertical muscle clamping device (9) is provided with the identical mobile coasting mechanism (30) of structure and retaining mechanism (40), opposite side at each vertical muscle clamping device (9) connects respectively its corresponding welding electrode main frame (7), described mobile coasting mechanism (30) includes: be hinged on the roller (10) of each vertical muscle clamping device (9) one side and the guide rail (14) that support roller (10) slides, guide rail (14) is fixed on crossbeam (13), described retaining mechanism (40) includes: vertical muscle braking vane (19), drive plate (16) and driving shaft (17), described vertical muscle braking vane (19) one ends are fixed on vertical muscle clamping device (9) one sides, vertical muscle braking vane (19) other end is the cantilever slab with bending, this cantilever slab is positioned between crossbeam (13) and drive plate (16) one ends, drive plate (16) is fixed on the driving shaft (17) that connects power source, driving shaft (17) drive drive plate (16) one ends rotate the cantilever slab that promotes vertical muscle braking vane (19) other ends and are fixed/throw off crossbeam (13) under power source drives, each vertical muscle clamping device (9) upward fix/is unclamped at crossbeam (13), transfer vertical muscle (3) after coordinating welding electrode main frame (7) position adjustment.

2. the vertical muscle wire feeder of the random movable type of a kind of reinforcing mesh welding production line described according to claim 1, it is characterized in that, driving shaft (17) one ends of described connection power source are hinged on the bearing block (18) fixing with crossbeam (13), and driving shaft (17) other end runs through and is fixed in drive plate (16) hole in a plurality of vertical muscle clamping device (9) one tight mechanisms of side chain (40); Described power source comprises: be fixed on the cylinder (12) on crossbeam (13) one ends, the piston rod (12a) of cylinder (12) is hinged on drive plate (16) other end, drive plate (16) connects driving shaft (17) by key (22), drive plate (16) one ends are fixed with locking supporting plate (15), and described locking supporting plate (15) is parallel with crossbeam (13) and be fixed on drive plate (16) one ends of each vertical muscle clamping device (9) one side.

3. the vertical muscle wire feeder of the random movable type of a kind of reinforcing mesh welding production line described according to claim 1, it is characterized in that, the structure that connects respectively its corresponding welding electrode main frame (7) at the opposite side of described each vertical muscle clamping device (9) comprises: the bottom of each vertical muscle clamping device (9) is provided with clamp jaw (9a), the top Intercalation of each vertical muscle clamping device (9) is in the U font groove of connecting plate (8) one ends, and connecting plate (8) other end is fixed on described welding electrode main frame (7).

4. the vertical muscle silk mechanism of the random movable type of a kind of reinforcing mesh welding production line described according to claim 1, it is characterized in that, described two frames (20) slide along track (23), and described track (23) is positioned between welding electrode main frame (7) and vertical muscle charge frame (24).

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