CN202367123U - Extensible bar distributing structure of molding machine of reinforcement cage - Google Patents

Abstract

The utility model discloses an extensible bar distributing structure of a molding machine of a reinforcement cage, which comprises a rotary disc in a moving disc, a fixed connecting pipe, a plurality of inserting pipes and a plurality of bar distributing frames. One end of the fixed connecting pipe is connected with the rotary disc, the other end of the fixed connecting pipe is sleeved with the plurality of inserting pipes in matched mode, and the inserting pipes are connected in inserting mode and rotate and move along with the fixed connecting pipe. Upper portions of the bar distributing frames rotate along with the fixed connecting pipes and each inserting pipe and support a main bar, and the lower portions of the bar distributing frames are supported on a bottom beam in rolling mode. The length of the extensible bar distributing structure is gradually compressed in a moving process of the moving disc. The extensible bar distributing structure has the advantages that the plurality of bar distributing frames rotate along with the fixed connecting pipes and the inserting pipes, and a fixed retaining block on the fixed connecting pipe or a main pushing retaining block on the inserting pipes pushes each bar distributing frame to move along the bottom beam, so that the moving disc can move along the bottom beam and simultaneously rotates, welds and compresses the length of the extensible bar distributing structure. The manufactured reinforcement cage is small in covered area, compact in structure and convenient to maintain, saves energy consumption, and is low in cost.

Description

The telescopic reinforcement structure of steel reinforcement cage forming machine

Technical field

The utility model relates to steel reinforcement cage forming machine, particularly be the telescopic reinforcement structure of steel reinforcement cage forming machine.

Background technology

Steel reinforcement cage is formed by main muscle and stirrup welding, and its main muscle is to have each other at interval and parallel formation column, and its stirrup twines according to the pitch of setting and is welded on the main muscle of column.Steel reinforcement cage forming machine is to substitute the artificial automation equipment of making steel reinforcement cage with machine.

The steel reinforcement cage forming machine of prior art comprises: fixed disk, the displacement disc that is positioned at fixed disk one side, bottom girder, arrangement of reinforcement rack device; The rotating disk that connects the rotary power unit is arranged in the said fixed disk; Its mobile device that moves along bottom girder of driving is arranged at said displacement disc bottom, and the rotating disk that connects the rotary power unit is arranged in the displacement disc; The one of which end was fixed on the displacement disc after main muscle ran through fixed disk, displacement disc drive main muscle while moving the rotating welding stirrup, steel reinforcement cage manufactures a finished product between fixed disk and displacement disc.Said arrangement of reinforcement rack device is to be fixedly connected on the fixed disk opposite side, and the structure of this arrangement of reinforcement rack device comprises: tube connector, arrangement of reinforcement bracing frame and arrangement of reinforcement rotating turret; Tube connector one end near main muscle length is fixed on the wheel hub of fixed disk inner rotary table; Be fixed with the arrangement of reinforcement rotating turret that a plurality of intervals are provided with on the tube connector along its length; A plurality of arrangement of reinforcement rotating turrets are supported on a plurality of arrangement of reinforcement bracing frames top, and the bottom of arrangement of reinforcement bracing frame is fixed on the bottom girder.In the said arrangement of reinforcement rotating turret many spokes are arranged, between spoke, support main muscle raw material and rotate synchronously with the rotating disk at fixed disk middle part.

There is following defective in the arrangement of reinforcement rack device of the steel reinforcement cage forming machine of prior art: between fixed disk one side and displacement disc, form the steel reinforcement cage finished product; Be fixedly connected the arrangement of reinforcement rack device at the fixed disk opposite side; Respectively be provided with the space of a steel reinforcement cage finished product length in the fixed disk both sides respectively, in taking the space that is equivalent to two steel reinforcement cage finished product length, arrange feeding device, deposit production equipments such as finished product.Prior art exists floor space big, and material and energy waste are big, shortcomings such as processing cost height.

Summary of the invention

The purpose of the utility model is to overcome the deficiency of above-mentioned technology; Provide a kind of arrangement of reinforcement rack device that supports main muscle can stretching structure on length compact; Minimizing takes up room; Reduce material and energy waste, processing cost is low, has improved the telescopic reinforcement structure of the steel reinforcement cage forming machine of production efficiency.

The technical scheme that solves the problems of the technologies described above is: a kind of telescopic reinforcement structure of steel reinforcement cage forming machine; Said telescopic reinforcement structure comprises: be provided with in the displacement disc that on bottom girder, moves, the displacement disc and run through and drive the moving rotating disk of main myospasm, also comprise: be fixedly connected pipe, many and insert

Pipe, arrangement of reinforcement frame; One end of said fixed connection pipe is fixedly connected rotating disk, is fixedly connected the pipe other end and supportingly mutual grafting is housed and pipe rotates and many intubate of telescopic moving with being fixedly connected according to size order is sliding; Said arrangement of reinforcement frame has a plurality of, and its top is rotated with the fixed connection pipe of suit and every intubate respectively and supported main muscle, rolls respectively and be supported on the bottom girder in its underpart; The length of said telescopic reinforcement structure moves in the welded reinforcement cage process at displacement disc and is compressed gradually.

The beneficial effect of the utility model is: the utility model overcomes the defective of prior art.Its end was fixed on the fixed disk after the main muscle of the utility model ran through displacement disc, and telescopic reinforcement structure is arranged on displacement disc one side and supports and mean allocation master muscle; In the production process, the arrangement of reinforcement rotating turret rotates, moves, when displacement disc moves with displacement disc with fixed connection pipe and every intubate of institute's suit respectively; The block of promoting mainly through being fixedly connected on fixed stop or the many intubate on the pipe promotes being moved by the push and block piece and promoting the arrangement of reinforcement bracing frame on each arrangement of reinforcement rotating turret and moves along bottom girder; Make the length that displacement disc rotates on limit when bottom girder moves, side weld connects, telescopic reinforcement structure is compressed on the limit, it is little to realize that steel reinforcement cage is manufactured floor space, compact conformation; Easy to maintenance; Stable working is saved energy consumption, the advantage that processing cost is low.Alleviate labor strength, improved production efficiency.

Description of drawings

Fig. 1 is the utility model front view, and wherein partial cutaway shows telescopic reinforcement structure structure;

Fig. 2 is the vertical view of Fig. 1, and the main muscle of removal, stirrup show telescopic reinforcement structure structure among the figure;

Fig. 3 is an arrangement of reinforcement rotating turret in the telescopic reinforcement structure, an arrangement of reinforcement bracing frame partial enlarged drawing among Fig. 1, also shows square tube B-B sectional structure chart among Fig. 4;

Fig. 4 be among Fig. 3 A to view;

Fig. 5 is an arrangement of reinforcement bracing frame stretching device structural representation among Fig. 1;

Fig. 6 is that the utility model is fixedly connected pipe and first intubate is the cross-sectional view of pipe, shows that also C-C is to view among Fig. 7;

Fig. 7 is a D-D cutaway view among Fig. 6;

Fig. 8 is a P-P cutaway view among Fig. 6.

" sequence number explanation in the accompanying drawing "

1: fixed disk; 2: stirrup; 3: main muscle; 4: the aligning frame; 5: displacement disc; 6: rotating disk; 7: be fixedly connected pipe; 8: fixed stop; 9: by the push and block piece; 10: the axle head running roller; 11: the arrangement of reinforcement rotating turret; 12: promote mainly block; 13: the first intubate; 14: pulley; 15: the second intubate; 16: arrangement of reinforcement rotating turret spoke; 17: the three intubate; 18: arrangement of reinforcement rotating turret wheel hub; 19: the arrangement of reinforcement bracing frame; 20: arrangement of reinforcement bracing frame road wheel; 21: location-plate; 22: stretch

The formula that contracts arrangement of reinforcement device; 23: holding screw; 24: the ring-type cylinder; 26: semi-circular track; 28: bottom girder; 29: the fixed disk motor; 30: the displacement disc electric rotating machine; 31: displacement disc moves driver element; 32: steel wire rope; 33: snap close; 34: cable drum; 35: movable plate; 40: the sprocket chain strip transmission mechanism; 41: shifting axle; 42: the walking sprocket wheel; 43: chain; 50: the arrangement of reinforcement frame; 51: slide block; 52: chute.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is implemented further to detail.

The utility model provides a kind of telescopic reinforcement structure of steel reinforcement cage forming machine, and said steel reinforcement cage forming machine comprises fixed disk 1 and displacement disc 5, and the rotating disc (figure does not look) that connects fixed disk motor 29 is arranged in fixed disk 1; Be provided with the rotating disk 6 that runs through and drive main muscle 3 rotations in the displacement disc 5; Rotating disk 6 connects displacement disc electric rotating machine 30; Displacement disc 5 moves on bottom girder 28, and displacement disc 5 all is fixed on the movable plate 35 with its mobile device that moves along bottom girder 28 of driving, stirrup 2 welders; Said mobile device comprises: displacement disc moves driver element 31 and drives shifting axle 41 rotations through sprocket chain strip transmission mechanism 40; The fixing walking in shifting axle 41 two ends sprocket wheel 42; Chain 43 is fixed on two parallel bottom girders 28; Displacement disc moves driver element 31 and rotates through 42 rotations of above-mentioned sprocket chain strip transmission mechanism 40 drive walking sprocket wheels, and driving movable plate 35 carries displacement disc 5 and moves along bottom girder 28.The main muscle 3 of steel reinforcement cage runs through displacement disc 5 its ends of back and is fixed on the fixed disk 1, and telescopic reinforcement structure 22 supports and mean allocation master muscle 3 in displacement disc 5 one sides; Displacement disc 5 moves on the limit, stirrup 2 is welded on the main muscle 3 in the rotary course of limit, between fixed disk 1 and displacement disc 5, produces the finished product steel reinforcement cage.

Said telescopic reinforcement structure 22 comprises: be fixedly connected pipe 7, first intubate 13, second intubate 15, more than 17 intubate of the 3rd intubate (intubate is according to main muscle 3 length changeables), arrangement of reinforcement frame 50.One end of said fixed connection pipe 7 is fixedly connected rotating disk 6, is fixedly connected pipe 7 other ends and supportingly mutual grafting is housed and with being fixedly connected that pipe 7 rotates and first intubate 13 of telescopic moving, second intubate 15, more than 17 intubate of the 3rd intubate according to size order is sliding; Said arrangement of reinforcement frame 50 has a plurality of, and its top is rotated with the fixed connection pipe 7 of suit and first intubate 13, second intubate 15, the 3rd intubate 17 every intubate respectively and supported main muscle 3, rolls respectively and be supported on the bottom girder 28 in its underpart; The length of said telescopic reinforcement structure 22 moves in the welded reinforcement cage process at displacement disc 5 and is compressed gradually.

Said arrangement of reinforcement frame 50 comprises: be positioned at arrangement of reinforcement frame 50 tops arrangement of reinforcement rotating turret 11, be positioned at the arrangement of reinforcement bracing frame 19 of arrangement of reinforcement frame 50 lower support arrangement of reinforcement rotating turrets 11.

Like Fig. 1, Fig. 3, shown in Figure 4, said arrangement of reinforcement rotating turret 11 comprises: many arrangement of reinforcement rotating turret spokes 16, arrangement of reinforcement rotating turret wheel hub 18, a plurality of axle head running roller 10, a plurality of by push and block piece 9; One end space of said many arrangement of reinforcement rotating turret spokes 16 is fixed on arrangement of reinforcement rotating turret wheel

On hub 18 outer rims, the other end of many arrangement of reinforcement rotating turret spokes 16 is hinged with pulley 14, and this pulley 14 rolls and is supported on the semi-circular track 26 of arrangement of reinforcement bracing frame 19, and arrangement of reinforcement bracing frame 19 bottom-hinged have arrangement of reinforcement bracing frame road wheel 20.Said arrangement of reinforcement bracing frame road wheel 20 supports the 19 rolling walkings of arrangement of reinforcement bracing frame on bottom girder 28.

Said a plurality of axle head running rollers 10 spaces are provided with and are hinged on respectively the port of the arrangement of reinforcement rotating turret wheel hub 18 centre bore left and right sides, on fixed connection pipe 7 or first intubate 13 of the outer rim contact of axle head running roller 10 in arrangement of reinforcement rotating turret wheel hub 18 centre bores, second intubate 15, more than 17 intubate of the 3rd intubate; Said a plurality of be uniformly distributed with and protrude by push and block piece 9 be fixed on the arrangement of reinforcement rotating turret wheel hub 18 centre bore both sides end faces; Said a plurality of by push and block piece 9 and be fixedly connected fixed stop 8 on the pipe 7, be fixedly connected pipe 7 and first intubate 13, it is fixing on second intubate 15, more than 17 intubate of the 3rd intubate that to promote mainly block 12 positions corresponding, be convenient at moving process fixed stop 8, promote mainly that ejection is a plurality of in the block 12 is moved by push and block piece 9 driving arrangement of reinforcement rotating turrets 11.

The said fixed connection pipe 7 and first intubate 13, second intubate 15, more than 17 intubate of the 3rd intubate are square tube; Said a plurality of axle head running roller 10 is uniformly distributed with the port that is hinged on the arrangement of reinforcement rotating turret wheel hub 18 square centre bore left and right sides, on fixed connection pipe 7 or first intubate 13 of the outer rim of axle head running roller 10 contact in arrangement of reinforcement rotating turret wheel hub 18 square centre bores, second intubate 15, the 3rd intubate 17.

Said fixed connection pipe 7 and first intubate 13, second intubate 15, more than 17 intubate of the 3rd intubate pegged graft each other and pipe 7 rotates and the structure of telescopic moving comprises with being fixedly connected: a plurality of axle head running roller 10, a plurality of block 12 of promoting mainly; Said a plurality of axle head running rollers 10 spaces are provided with and are hinged on the outer tube end, interface place that is fixedly connected pipe 7 and first intubate 13, second intubate 15, more than 17 intubate of the 3rd intubate; On the inner sleeve that the outer rim contact of axle head running roller 10 is inserted into, axle head running roller 10 is stirred the inner sleeve that is inserted into the rotation of interface place outer tube and is rotated with it; Saidly a plurality ofly promote mainly that block 12 spaces are provided with and protrusion is fixed on the outer tube end, interface place that is fixedly connected pipe 7 inserted terminal oral areas and first intubate 13, second intubate 15, more than 17 intubate of the 3rd intubate; Also be fixed with a plurality of fixed stops 8 on the tube wall of fixed connection pipe 7; Said a plurality of promote mainly block 12 and a plurality of fixed stops 8 all with arrangement of reinforcement rotating turret 11 on a plurality of corresponding by push and block piece 9 positions.

The said fixed connection pipe 7 and first intubate 13, second intubate 15, more than 17 intubate of the 3rd intubate are square tube; Said a plurality of axle head running roller 10 is hinged to be distributed on the interface prescription shape outer tube end that is fixedly connected pipe 7 and first intubate 13, second intubate 15, more than 17 intubate of the 3rd intubate, and the outer rim of axle head running roller 10 contacts on the tube wall of the square inner sleeve that is inserted into.

As shown in Figure 5, also comprise stretching device, its structure comprises: lay winding wire ropes 32

Cable drum 34, be fixed on a plurality of intervals on the steel wire rope location-plate 21 that the snap close 33 of different size, a plurality of arrangement of reinforcement bracing frames 19 bottoms have the different size through hole is set; Be from clear size of opening and increase progressively arrangement successively near arrangement of reinforcement bracing frame 19 location-plates 21 of displacement disc 5; Be from size and increase progressively arrangement successively, spacing between the location-plate 21 of arrangement of reinforcement bracing frame 19 when the spacing between the snap close 33 is same as welded reinforcement cage initial position near steel wire rope 32 1 end snap closes 33.

Steel wire rope 32 1 ends are from being fixed on the bottom of displacement disc 5 after arrangement of reinforcement bracing frame 19 location-plates 21 maximum through holes run through a plurality of location-plate 21 through holes successively; Displacement disc 5 haulage cable 32 in returning the initial position moving process moves; Different size snap close 33 is stuck in outside location-plate 21 through holes less than snap close 33 sizes, and a plurality of arrangement of reinforcement bracing frames 19 drive arrangement of reinforcement rotating turret 11 and run to initial position in company with displacement disc 5 along bottom girder 28.

Said snap close 33 is ring-type cylinders 24 that holding screw 23 is housed, and holding screw 23 is fixed on snap close 33 on the steel wire rope 32.

To shown in Figure 8, the said fixed connection pipe 7 and first intubate 13, second intubate 15, more than 17 intubate of the 3rd intubate are pipe like Fig. 6; There is slide block 51 to be connected between the fixed connection pipe 7 of said arrangement of reinforcement rotating turret wheel hub 18 and its suit and first intubate 13, second intubate 15, more than 17 intubate of the 3rd intubate; Be fixedly connected between first intubate 13 of pipe 7 and its grafting, between first intubate 13, second intubate 15, more than 17 intubate of the 3rd intubate, having slide block 51 to be connected; Be provided with slide block 51 on pipe 7 and first intubate 13, second intubate 15, more than 17 intubate of the 3rd intubate and move the chute 52 that cunning is joined being fixedly connected.

Said a plurality of axle head running roller 10 is hinged to be distributed on fixed connection pipe 7 and first intubate 13, second intubate 15 of round tube, the outer tube end, interface place of the 3rd intubate 17, and the outer rim contact of axle head running roller 10 is on the tube wall of the circular inner sleeve that is inserted into.Moving of a plurality of axle head running rollers a plurality of intubate of 10 ability effective support.

More particularly; Telescopic reinforcement structure 22 is used for rotation and supports main muscle 3; With fixed connection pipe 7 that displacement disc inner rotary table 6 is connected in the many intubate of pegging graft each other of pegging graft; The rotation on displacement disc 5 limits, limit are moved and are driven 7 rotations of fixed connection pipe, move, and also drive many intubate simultaneously and rotate synchronously; Fixed connection pipe 7 also promotes many intubate, arrangement of reinforcement frame 50 moves and accomplishes the steel reinforcement cage welding of supporting main muscle 3.Respectively the promotion structure and the rotational structure of above-mentioned telescopic reinforcement structure 22 described below:

Like Fig. 1, Fig. 3, shown in Figure 4, being fixedly connected pipe 7 is maximum joints of internal diameter in the telescopic arrangement of reinforcement frame, and first intubate 13, second intubate 15, the 3rd intubate 17 internal diameters successively decrease gradually and are docile and obedient sliding supporting the connecing of preface.When displacement disc 5 moves, be fixedly connected pipe 7 and move thereupon, fixing

Fixed stop 8 on the tube connector 7 at first move to promote to be enclosed within to be fixedly connected and by push and block piece 9 arrangement of reinforcement rotating turret 11 is moved on outer arrangement of reinforcement rotating turret wheel hub 18 left end face of pipe 7, and promotes arrangement of reinforcement bracing frame 19 and move along bottom girder 28; Being run on arrangement of reinforcement rotating turret wheel hub 18 its right end face by push and block piece 9 be fixedly connected pipe 7 ports promote mainly block 12 left sides after, promote down arrangement of reinforcement rotating turret 11 and arrangement of reinforcement bracing frame 19 edge together and be enclosed within and be fixedly connected first intubate, 13 1 ends of managing in 7 and move being fixedly connected pipe 7 to first intubate, 13 other ends.

When driving fixed connection pipe 7, displacement disc 5 moves near first intubate, 13 other ends (promptly near second intubate, 15 1 ends); Be fixedly connected pipe 7 ports promote mainly block 12 right side ejector sleeves be contained on arrangement of reinforcement rotating turret wheel hub 18 left end face on second intubate 15 by push and block piece 9; Follow-up ejection action repeats above-mentioned action, omits explanation at this.

Like Fig. 3, shown in Figure 4, the said fixed connection pipe 7 and first intubate 13 are square tube, arrangement of reinforcement rotating turret wheel hub 18 has square centre bore; Rotate in company with the rotating disk in the displacement disc 6 when being fixedly connected pipe 7; The a plurality of axle head running rollers 10 that the are hinged on arrangement of reinforcement rotating turret wheel hub 18 square centre bore left and right sides tube connector 7 rectangular tube faces that are fixed promote to make arrangement of reinforcement rotating turret wheel hub 18 to rotate, and realize being enclosed within the arrangement of reinforcement rotating turret 11 rotational support master muscle 3 that are fixedly connected on the pipe 7; Rotate owing to be fixedly connected pipe 7, be hinged on and be fixedly connected a plurality of axle head running rollers 10 in pipe 7 interface ends and rotate first intubate 13 that also promotes the rectangular tube face simultaneously thereupon and rotate thereupon; Be enclosed within the arrangement of reinforcement rotating turret 11 rotational support master muscle 3 on first intubate 13 with the spline structure drive; The rotation of second intubate 15, the 3rd intubate 17 and be set with above that arrangement of reinforcement rotating turret 11 and rotate at this and omit explanation.

Like Fig. 6, Fig. 7, shown in Figure 8, show to be fixedly connected pipe 7 and first intubate 13, second intubate 15, more than 17 intubate of the 3rd intubate and to be pipe, be fixedly connected manage 7 and the Duo Gen intubate between the promotion structure be same as said square tube; Be fixedly connected between pipe 7 and the many intubate, be fixedly connected pipe 7 and Duo Gen intubate and utilize slide block 51 to be connected completion with rotational structure between the arrangement of reinforcement rotating turret 11, specifically rotary course is following:

A plurality of arrangement of reinforcement rotating turret wheel hub 18 circular inner holes are set with circular fixed connection pipe 7 and first intubate 13, second intubate 15, more than 17 intubate of the 3rd intubate; Be fixedly connected the slotted hole chute 52 that all has out two symmetries on pipe 7 and first intubate 13, second intubate 15, the 3rd intubate 17; Slide block 51 is a T-shape, and the ledge of T-shape cooperates with slotted hole chute 52; Slide block 51 with arrangement of reinforcement rotating turret wheel hub 18 be fixedly connected pipe 7 or other many intubate are fixedly connected; Simultaneously slide block 51 also will be fixedly connected manage 7 be fixedly connected with first intubate, 13 1 ends, slide block 51 also is fixedly connected first intubate, 13 other ends with second intubate, 15 1 ends; By that analogy; Be fixedly connected pipe 7 and rotate with the rotating disk in the displacement disc 6 and just drive first intubate 13, second intubate 15, more than 17 intubate of the 3rd intubate and rotate, also drive a plurality of arrangements of reinforcement simultaneously

Rotating turret wheel hub 18 rotates; Slide block 51 makes to be fixedly connected between pipe 7 and the Duo Gen intubate and moves along slotted hole chute 52 simultaneously in rotation.Limit rotation when displacement disc 5 moves along bottom girder 28, the length that side weld connects, telescopic reinforcement structure 22 is compressed on the limit, the realization steel reinforcement cage is manufactured.

Claims (9)

1. the telescopic reinforcement structure of a steel reinforcement cage forming machine; Said telescopic reinforcement structure (22) comprising: in bottom girder (28) is gone up mobile displacement disc (5), displacement disc (5), be provided with the rotating disk (6) that runs through and drive main muscle (3) rotation; It is characterized in that, also comprise: be fixedly connected pipe (7), many intubate (13,15,17), arrangement of reinforcement frame (50); One end of said fixed connection pipe (7) is fixedly connected rotating disk (6), is fixedly connected pipe (7) other end and supportingly mutual grafting is housed and pipe (7) rotates and the many intubate (13,15,17) of telescopic moving with being fixedly connected according to size order is sliding; Said arrangement of reinforcement frame (50) has a plurality of, and main muscle (3) is rotated and supported in its top with the fixed connection pipe (7) and the every intubate (13,15,17) of suit respectively, rolls respectively and be supported on the bottom girder (28) in its underpart; The length of said telescopic reinforcement structure (22) moves in the welded reinforcement cage process at displacement disc (5) and is compressed gradually.

2. according to the telescopic reinforcement structure of the steel reinforcement cage forming machine described in the claim 1; It is characterized in that said arrangement of reinforcement frame (50) comprises the arrangement of reinforcement rotating turret (11) that is positioned at its top and is positioned at the arrangement of reinforcement bracing frame (19) that arrangement of reinforcement rotating turret (11) is supported in its underpart; Said arrangement of reinforcement rotating turret (11) comprising: many arrangement of reinforcement rotating turret spokes (16), arrangement of reinforcement rotating turret wheel hub (18), a plurality of axle head running roller (10), a plurality of by push and block piece (9); One end space of said many arrangement of reinforcement rotating turret spokes (16) is fixed on arrangement of reinforcement rotating turret wheel hub (18) outer rim; The other end of many arrangement of reinforcement rotating turret spokes (16) is hinged with pulley (14); This pulley (14) rolls and is supported on the semi-circular track (26) of arrangement of reinforcement bracing frame (19), and arrangement of reinforcement bracing frame (19) bottom-hinged has arrangement of reinforcement bracing frame road wheel (20); Said a plurality of axle head running rollers (10) space is provided with and is hinged on respectively the port of arrangement of reinforcement rotating turret wheel hub (18) the centre bore left and right sides, on the fixed connection pipe (7) or many intubate (13,15,17) of outer rim contact in arrangement of reinforcement rotating turret wheel hub (18) centre bore of axle head running roller (10); Said a plurality of be uniformly distributed with and protrude by push and block piece (9) be fixed on the end face of arrangement of reinforcement rotating turret wheel hub (18) centre bore both sides; Said a plurality of by push and block piece (9) and be fixedly connected fixed stop (8) on the pipe (7), be fixedly connected on pipe (7) and the many intubate (13,15,17) to promote mainly block (12) position corresponding.

3. according to the telescopic reinforcement structure of the steel reinforcement cage forming machine described in the claim 2, it is characterized in that said fixed connection pipe (7) and many intubate (13,15,17) are square tube; Said a plurality of axle head running rollers (10) are uniformly distributed with the port that is hinged on the square centre bore of arrangement of reinforcement rotating turret wheel hub (18) left and right sides, on the fixed connection pipe (7) or many intubate (13,15,17) of outer rim contact in the square centre bore of arrangement of reinforcement rotating turret wheel hub (18) of axle head running roller (10).

4. according to the telescopic reinforcement structure of the steel reinforcement cage forming machine described in the claim 1; It is characterized in that said fixed connection pipe (7) is pegged graft with many intubate (13,15,17) each other and pipe (7) rotates and the structure of telescopic moving comprises: a plurality of axle head running rollers (10), a plurality of block (12) of promoting mainly with being fixedly connected; Said a plurality of axle head running rollers (10) space is provided with and is hinged on the outer tube end, interface place that is fixedly connected pipe (7) and many intubate (13,15,17), the outer rim of axle head running roller (10)

On the inner sleeve that contact is inserted into, axle head running roller (10) is stirred the inner sleeve that is inserted into the rotation of interface place outer tube and is rotated with it; Saidly a plurality ofly promote mainly that block (12) space is provided with and protrusion is fixed on the outer tube end, interface place that is fixedly connected pipe (7) inserted terminal oral area and Duo Gen intubate (13,15,17); Be fixedly connected on the tube wall of managing (7) and also be fixed with a plurality of fixed stops (8); Said a plurality of promote mainly block (12) and a plurality of fixed stop (8) all with arrangement of reinforcement rotating turret (11) on a plurality of corresponding by push and block piece (9) position.

5. according to the telescopic reinforcement structure of the steel reinforcement cage forming machine described in the claim 4, it is characterized in that said fixed connection pipe (7) and many intubate (13,15,17) are square tube; The hinged interface prescription shape outer tube end that is fixedly connected pipe (7) and many intubate (13,15,17) that is distributed on of said a plurality of axle head running rollers (10), the outer rim contact of axle head running roller (10) is on the tube wall of the square inner sleeve that is inserted into.

6. according to the telescopic reinforcement structure of the steel reinforcement cage forming machine described in the claim 1; It is characterized in that; Also comprise stretching device, its structure comprises: the cable drum (34) of lay winding wire ropes (32), be fixed on a plurality of intervals on the steel wire rope snap close (33) of different size, the location-plate (21) that the different size through hole is arranged at a plurality of arrangement of reinforcement bracing frame (19) bottom are set; Be from clear size of opening and increase progressively arrangement successively near arrangement of reinforcement bracing frame (19) location-plate (21) of displacement disc (5); Be from size and increase progressively arrangement successively, spacing between the location-plate (21) of arrangement of reinforcement bracing frame (19) when the spacing between the snap close (33) is same as welded reinforcement cage initial position near steel wire rope (32) one end snap closes (33).

7. according to the telescopic reinforcement structure of the steel reinforcement cage forming machine described in the claim 6; It is characterized in that; Said snap close (33) is the ring-type cylinder (24) that holding screw (23) is housed, and holding screw (23) is fixed on snap close (33) on the steel wire rope (32).

8. according to the telescopic reinforcement structure of the steel reinforcement cage forming machine described in the claim 2, it is characterized in that said fixed connection pipe (7) and many intubate (13,15,17) are pipe; There is slide block (51) to be connected between the fixed connection pipe (7) of said arrangement of reinforcement rotating turret wheel hub (18) and its suit and the many intubate (13,15,17); Be fixedly connected between first intubate (13) of pipe (7) and its grafting, between many intubate (13,15,17), having slide block (51) to be connected; On fixed connection pipe (7) and many intubate (13,15,17), be provided with slide block (51) and move sliding chute (52) of joining.

9. the telescopic reinforcement structure of the steel reinforcement cage forming machine described in according to Claim 8; It is characterized in that; The hinged outer tube end, interface place that is fixedly connected pipe (7) and many intubate (13,15,17) that is distributed on of said a plurality of axle head running rollers (10), the outer rim contact of axle head running roller (10) is on the tube wall of the circular inner sleeve that is inserted into.

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