CN105035851A

CN105035851A - Pushing machine for finished steel strand bundle

Info

Publication number: CN105035851A
Application number: CN201510388092.XA
Authority: CN
Inventors: 牛坡
Original assignee: Tianjin Shinkuntai Advanced Prestressing Technology Co Ltd
Current assignee: Tianjin Shinkuntai Advanced Prestressing Technology Co Ltd
Priority date: 2015-07-03
Filing date: 2015-07-03
Publication date: 2015-11-11

Abstract

The invention discloses a pushing machine for a finished steel strand bundle. According to the structure of the pushing machine, a first crawler belt transmission mechanism and a second crawler belt transmission mechanism are arranged on a first frame and a second frame on a base respectively, wherein the first crawler belt transmission mechanism and the second crawler belt transmission mechanism are identical in speed and opposite in rotation direction; a plurality of first crawler belts are arranged on the outer side face of a first chain on the first crawler belt transmission mechanism at intervals; a plurality of second crawler belts are arranged on the outer side face of a second chain on the second crawler belt transmission mechanism at intervals; the first crawler belts and the second crawler belts are crossed and arranged in a staggered mode; the semi-arc faces of the first crawler belts and the semi-arc faces of the second crawler belts wrap and squeeze the outer edges of the two sides of the finished steel strand bundle from the two sides respectively in a staggered mode, and the finished steel strand bundle is moved and conveyed along with moving of the first crawler belts and the second crawler belts. The pushing machine has the advantages that conveying is achieved through friction force between the two crawler belts arranged in the staggered mode and the steel strand bundle, deformation of the steel strand bundle due to loosening is avoided, the pushing construction of steel strands is achieved, the construction time is saved, and the machining cost of the steel strand bundle is reduced.

Description

A kind of pusher of finished steel strand bundle

Technical field

Patent of the present invention relates to conveying finished steel strand bundle equipment, particularly be a kind of pusher of finished steel strand bundle.

Background technology

To in bridge and railway foundation construction, many steel strand connect in the bellows duct prepared by needs, for overcoming the defect connecting single steel strand existence in bellows duct successively, change into first by many steel strand combing bunchys, the more steel strand being carded to whole bundle are connected in bellows duct.The construction technology that the steel strand of above-mentioned whole bundle are drawn in bellows duct is: first a hauling rope is passed duct, then hauling rope one end is fixed on the drawing head of steel wire bundle, the other end is fixed on traction machine, last under the traction of traction machine, hauling rope passes through bellows duct with steel wire bundle.

Above-mentioned prior art needs hauling rope in advance to pass duct, and work progress is loaded down with trivial details, and the cycle is longer, and the drawing head requirement of strength of work progress to finished steel strand bundle is high, adds the tooling cost of finished steel strand bundle.

Summary of the invention

The object of the invention is to overcome the deficiencies in the prior art, provide one to push technique conveying steel wire bundle through duct, have structure simple, cost is low, the pusher of a kind of finished steel strand bundle that construction safety progress is fast.

The technical scheme solved the problems of the technologies described above is: a kind of pusher of finished steel strand bundle, described pusher comprises: pedestal, pedestal has structure same intervals and the first framework be set up in parallel and the second framework, the first framework with the second framework are respectively arranged with the first contrary Caterpillar transmission mechanism of the identical rotation direction of speed and the second Caterpillar transmission mechanism; Described first Caterpillar transmission mechanism comprises: the first drive sprocket, the first driven sprocket be hinged on the first framework, the first chain be sleeved on the first drive sprocket and the first driven sprocket that connect driver element, the lateral surface of the first chain is arranged at intervals with multiple first crawler belt; Described second Caterpillar transmission mechanism comprises: the second drive sprocket, the second driven sprocket be hinged on the second framework, the second chain be sleeved on the second drive sprocket and the second driven sprocket that connect driver element, the lateral surface of the second chain is arranged at intervals with multiple second crawler belt; Described first crawler belt and the interlaced arrangement of the second crawler belt and between adjacent two the first crawler belts spacing be greater than the width of second crawler belt; Half cambered surface of the first crawler belt and half cambered surface of the second crawler belt are interlocked from both sides the therebetween finished steel strand bundle side outer rim of parcel extruding respectively, and the finished steel strand bundle being staggered parcel extruding moves with the first crawler belt and the second crawler belt and is moved conveying.

Preferred version is: the travel mechanism being provided with adjustment its spacing on described first framework and the second framework, and described travel mechanism comprises: screw rod, parallel with screw rod two slide shafts; Described two slide shafts are positioned at screw rod both sides and sliding joining runs through and support the first framework and the second framework, and the two ends of slide shaft are separately fixed on pedestal; The both sides of described screw rod are respectively arranged with the contrary screw thread of rotation direction, screw rod both sides rotation direction opposite threads screws in the tapped bore of the first framework respectively with in the tapped bore of the second framework, screw rod hinged support is on pedestal, and a termination of screw rod is protruded and is arranged on outside pedestal.

Preferred version is: described driver element comprises: motor reducer, motor reducer output shaft connects the first imput shaft, first imput shaft hinged support is on the first framework, first imput shaft is equipped with the first drive sprocket and the 3rd drive sprocket respectively, 3rd drive sprocket connects the 3rd driven sprocket by the 3rd chain, 3rd driven sprocket is arranged on the first driven shaft, first driven shaft is hinged on the second framework, first driven shaft is equipped with driving gear, the driven gear engaged with driving gear is arranged in the second imput shaft, second imput shaft connects the second drive sprocket, second imput shaft is hinged on the second framework, described 3rd drive sprocket is identical with the 3rd driven sprocket structure, driving gear is identical with driven gear structure.

Preferred version is: also include mobile adjustment sprocket wheel, and mobile adjustment sprocket wheel is hinged on threaded shaft one end, and threaded shaft other end fastener is fixed in the elongated hole on fixed mount, and fixed mount is fixed on pedestal; Described mobile adjustment sprocket wheel is sleeved on the 3rd chain, and the 3rd chain is also set with the 3rd drive sprocket and the 3rd driven sprocket simultaneously.

Preferred version is: two columns pedestal exporting finished product steel wire bundle side at described first Caterpillar transmission mechanism and the second Caterpillar transmission mechanism being also provided with positional symmetry, two roller carrier shafts be parallel to each other are installed between two columns, two roller carrier shafts are hinged with carrying roller respectively, and two carrying rollers respectively Structure deformation are output upper edge and the lower edge of finished product steel wire bundle; Described two columns are provided with multiple holes of installing roller carrier shaft diverse location.

The invention has the beneficial effects as follows:

1, patent of the present invention achieves the propelling movement construction method of steel strand, not only saves the engineering time, and reduces the requirements for quality of finished steel strand bundle sleeve, reduces steel wire bundle tooling cost.

2, the present invention utilizes the friction force between the crawler belt of two interlaced layouts and steel wire bundle to realize and carries, two crawler belts can be close to center to greatest extent, steel wire bundle is wrapped up completely, avoids steel wire bundle because loose distortion, the problem that cannot carry can not be clamped.

3, patent structure of the present invention is simple, and cost is lower, the smooth and easy course of conveying of energy, and improve conveying effect, conveyer crawler belt is durable in use simultaneously, is applicable to promoting widely.

Accompanying drawing explanation

Fig. 1 is front view of the present invention;

Fig. 2 is A-A cutaway view in Fig. 1;

Fig. 3 is B-B cutaway view in Fig. 1;

Fig. 4 is C-C cutaway view in Fig. 3;

Fig. 5 is D-D cutaway view in Fig. 3;

Fig. 6 is E-E cutaway view in Fig. 1;

Fig. 7 is F-F cutaway view in Fig. 1.

" in accompanying drawing, sequence number illustrates "

1: the first drive sprocket; 2: the first Caterpillar transmission mechanisms; 2a: the first crawler belt; 2b: the first chain; 3: the second drive sprockets; 4: the second Caterpillar transmission mechanisms; 4a: the second crawler belt; 4b: the second chain; 5: the first driven sprockets; 6: the second driven sprockets; 7: the first imput shaft; 8: bearing; 9: the second imput shaft; 10: the first driven shafts; 11: column; 12: carrying roller; 12a: roller carrier shaft; 13: the first frameworks; 13a: the first base; 13b: the first lower shoe; 13c: the first collateral fagging; 13d: the first top board; 14: the second frameworks; 14a: the second base; 14b: the second lower shoe; 14c: the second collateral fagging; 14d: the second top board; 15: pedestal; 17: slide shaft; 18: screw rod; 19: finished steel strand bundle; 20: motor; 21: attaching plug; 22: master cock; 23: coupler; 24: transmission shaft; 25: the three drive sprockets; 26: mobile adjustment sprocket wheel; 27: threaded shaft; 28: nut; 29: fixed mount; 29a: elongated hole; 30: the three driven sprockets; 31: driving gear; 32: driven gear; 33: the three chains; 34: the second driven shafts; 35: the three driven shafts; 36: reductor.

Detailed description of the invention

Below in conjunction with accompanying drawing, the embodiment of the present invention is described in further detail.

As shown in the figure, the invention provides a kind of pusher of finished steel strand bundle, described pusher comprises: pedestal 15, pedestal 15 has structure same intervals and the first framework 13 and the second framework 14 be set up in parallel, the first framework 13 with the second framework 14 are respectively arranged with the first Caterpillar transmission mechanism 2 and the second Caterpillar transmission mechanism 4 that the identical rotation direction of speed is contrary.

Described first Caterpillar transmission mechanism 2 comprises: the first drive sprocket 1, the first driven sprocket 5 be hinged on the first framework 13, the first chain 2b be sleeved on the first drive sprocket 1 and the first driven sprocket 5 that connect driver element, the lateral surface of the first chain 2b is arranged at intervals with multiple first crawler belt 2a.

Described second Caterpillar transmission mechanism 4 comprises: the second drive sprocket 3, the second driven sprocket 6 be hinged on the second framework 14, the second chain 4b be sleeved on the second drive sprocket 3 and the second driven sprocket 6 that connect driver element, the lateral surface of the second chain 4b is arranged at intervals with multiple second crawler belt 4a.

Described first crawler belt 2a and the interlaced arrangement of the second crawler belt 4a and between adjacent two the first crawler belt 2a spacing be greater than the width of a second crawler belt 4a; Half cambered surface of the first crawler belt 2a and half cambered surface of the second crawler belt 4a are interlocked from both sides the therebetween finished steel strand bundle 19 side outer rim of parcel extruding respectively, and the finished steel strand bundle 19 being staggered parcel extruding moves with the first crawler belt 2a's and the second crawler belt 4a and is moved conveying.

Described first framework 13 and the second framework 14 are provided with the travel mechanism of adjustment its spacing, and described travel mechanism comprises: screw rod 18, parallel with screw rod 18 two slide shafts 17; Described two slide shafts 17 are positioned at screw rod 18 both sides and sliding joining runs through and support the first framework 13 and the second framework 14, and the two ends of slide shaft 17 are separately fixed on pedestal 15.

The both sides of described screw rod 18 are respectively arranged with the contrary screw thread of rotation direction, screw rod 18 both sides rotation direction opposite threads screws in the tapped bore of the first framework 13 respectively with in the tapped bore of the second framework 14, screw rod 18 hinged support is on pedestal 15, a termination of screw rod 18 is protruded outside pedestal 15, and side is convenient to instrument rotating screw bolt 18.

Described driver element comprises: motor 20 and reductor 36, reductor 36 output shaft connects the first imput shaft 7, first imput shaft 7 hinged support is on the first framework 13, first imput shaft 7 is equipped with the first drive sprocket 1 and the 3rd drive sprocket 25 respectively, 3rd drive sprocket 25 connects the 3rd driven sprocket 30 by the 3rd chain 33, 3rd driven sprocket 30 is arranged on the first driven shaft 10, first driven shaft 10 is hinged on the second framework 14, first driven shaft 10 is equipped with driving gear 31, the driven gear 32 engaged with driving gear 31 is arranged in the second imput shaft 9, second imput shaft 9 connects the second drive sprocket 3, second imput shaft 9 is hinged on the second framework 14, described 3rd drive sprocket 25 is identical with the 3rd driven sprocket 30 structure, driving gear 31 is identical with driven gear 32 structure.

The present invention also includes mobile adjustment sprocket wheel 26, and mobile adjustment sprocket wheel 26 is hinged on threaded shaft 27 one end, and threaded shaft 27 other end fastener is fixed in the elongated hole 29a on fixed mount 29, and fixed mount 29 is fixed on pedestal 15; Described mobile adjustment sprocket wheel 26 is sleeved on the 3rd chain the 33, three chain 33 and is also set with the 3rd drive sprocket 25 and the 3rd driven sprocket 30 simultaneously.

The pedestal 15 exporting finished product steel wire bundle 19 side at described first Caterpillar transmission mechanism 2 and the second Caterpillar transmission mechanism 4 is also provided with two columns 11 of positional symmetry, two the roller carrier shaft 12a be parallel to each other are installed between two columns 11, two roller carrier shaft 12a are hinged with carrying roller 12 respectively, and two carrying rollers 12 respectively Structure deformation are output upper edge and the lower edge of finished product steel wire bundle 19; Described two columns 11 are provided with multiple holes of installing roller carrier shaft 12a diverse location.The effect of two carrying rollers 12 limits finished product steel wire bundle 19 to carry along the center of the first Caterpillar transmission mechanism 2 and the second Caterpillar transmission mechanism 4, increases the stable propelling movement of finished steel strand bundle 19.

In particular, described first framework 13 comprises: the first base 13a, the first lower shoe 13b, the first collateral fagging 13c and the first top board 13d; Between the first top board 13d and the first lower shoe 13b, the symmetric position at middle part fixes two the first collateral fagging 13c.

Second framework 14 comprises: the second base 14a, the second lower shoe 14b, the second collateral fagging 14c and the second top board 14d; Middle part symmetric position between the second top board 14d and the second lower shoe 14b fixes two the second collateral fagging 14c.

First base 13a and the second base 14a is supported by slide shaft 17 through two slide shaft 17, first frameworks 13 and the second framework 14 simultaneously, makes the first framework 13 and the second framework 14 move adjustment its spacing along slide shaft 17 by rotating screw bolt 18.

The first drive sprocket 1 in described first Caterpillar transmission mechanism 2 and the 3rd drive sprocket 25 are installed in the first imput shaft 7, and first imput shaft 7 one end is hinged on the first top board 13d by bearing 8, and first imput shaft 7 other end connects reductor 36 output shaft; First driven sprocket 5 is hinged on the second driven shaft 34, and the second driven shaft 34 two ends are fixed between the first top board 13d of the first framework 13 and the first lower shoe 13b; Reductor 36 is connected motor 20 by coupler 23 with transmission shaft 24, and reductor 36, motor 20 are arranged in the first base 13a.

The second drive sprocket 3 in described second Caterpillar transmission mechanism 4 and driven gear 32 are installed in the second imput shaft 9, and the second imput shaft 9 two ends are hinged between the second top board 14d and the second lower shoe 14b respectively by bearing 8; First driven shaft 10 two ends are hinged between the second top board 14d and the second lower shoe 14b respectively by bearing 8, first driven shaft 10 is connected with the rotary power of the driving gear 31 engaged with driven gear 32 and the 3rd driven sprocket the 30, three driven sprocket 30 from the 3rd drive sprocket 25 be sleeved on it on the 3rd chain 33 simultaneously.

Above-mentioned 3rd driven sprocket 30 hand of rotation and the first driven shaft 10 hand of rotation are same as the 3rd drive sprocket 25 hand of rotation and the first drive sprocket 1 hand of rotation, after the driving gear 31 and driven gear 32 of pair of meshing, the second imput shaft 9 hand of rotation is contrary with the first drive sprocket 1 hand of rotation with the second drive sprocket 3 hand of rotation; Because the 3rd drive sprocket 25 is identical with the 3rd driven sprocket 30 diameter, driving gear 31 is identical with the number of teeth with driven gear 32 diameter, so the first imput shaft 7 is the same with the rotative speed of the second imput shaft 9, the first Caterpillar transmission mechanism 2 can be realized contrary with the identical rotation direction of the second Caterpillar transmission mechanism 4 rotating speed.

Second driven sprocket 6 is hinged on the 3rd driven shaft 35, and the 3rd driven shaft 35 two ends are fixed between the second top board 14d of the second framework 14 and the second lower shoe 14b.

As shown in Figures 2 to 5, mobile adjustment sprocket wheel 26 is fixed in the elongated hole 29a of fixed mount 29 by nut 28, and when unclamping nut 28, threaded shaft 27 can horizontally slip along elongated hole 29a.

For pushing the finished steel strand bundle 19 of different size, the distance between adjustment first framework 13 and the second framework 14 need be moved simultaneously, now, unclamp nut 28 mobile threaded shaft 27 in elongated hole 29a, the position of adjustment mobile adjustment sprocket wheel 26, make the chain 33 between the 3rd drive sprocket 25 and the 3rd driven sprocket 30 keep suitable elasticity, guarantee that the first Caterpillar transmission mechanism 2 and the second Caterpillar transmission mechanism transmission are accurately normally carried out.

Described first crawler belt 2a and the second crawler belt 4a adopts the flexible materials such as rubber to make, and to increase with the friction force of finished steel strand bundle 19 and to improve wear resisting property, improves conveying effect.

As shown in Figure 6, first crawler belt 2a has multiple its to have gap each other and is fixed on chain 2b, second crawler belt 4a has multiple its to have gap each other and is fixed on chain 4b, for making the first crawler belt 2a and the second crawler belt 4a interlaced parcel extruding conveying finished steel strand bundle 19 successively, between adjacent two the first crawler belt 2a, spacing is greater than the width of a second crawler belt 4a, could adjust the first crawler belt 2a and the second crawler belt 4a moves respectively to the center between it like this, thus staggered parcel different size finished steel strand bundle 19.

Attaching plug 21 is drawn from connection box for motor, and connect for external power supply, master cock 22 is connected with the connection box of motor, can control rotating and reverse of motor, thus controls the propelling movement direction of pusher.

Below working process of the present invention is described:

First, unclamp 28 nuts, mobile threaded shaft 27, turn screw rod 18 and adjust spacing between the first framework 13 and the second framework 14, make the distance between the first Caterpillar transmission mechanism 2 and the second Caterpillar transmission mechanism 4 be applicable to finished steel strand bundle 19 and penetrate;

Secondly, adjust the height and position of two carrying rollers 12 according to finished steel strand bundle 19 diameter, ensure that the center of finished steel strand bundle 19 is consistent with the first Caterpillar transmission mechanism 2 and the second Caterpillar transmission mechanism 4 center conveyor; First finished steel strand bundle 19 head is penetrated between two carrying rollers 12, then finished steel strand bundle 19 head is positioned over conveyor outlet end, then make finished steel strand bundle 19 by between the first Caterpillar transmission mechanism 2 and the second Caterpillar transmission mechanism 4;

Again, adjust the position of threaded shaft 27 and turn screw rod 18, the first framework 13 and the second framework 14 are moved to center simultaneously, stopping when the first crawler belt 2a and the second crawler belt 4a tightly encases finished steel strand bundle 19 liang of rear flank;

Finally, switch on power, pusher utilizes the friction force of the first crawler belt 2a and the second crawler belt 4a and finished steel strand bundle 19 to push to advance and carry.

Claims

1. the pusher of a finished steel strand bundle, it is characterized in that, described pusher comprises: pedestal (15), pedestal (15) there is structure same intervals and the first framework (13) be set up in parallel and the second framework (14), the first framework (13) with the second framework (14) are respectively arranged with contrary the first Caterpillar transmission mechanism (2) of the identical rotation direction of speed and the second Caterpillar transmission mechanism (4); Described first Caterpillar transmission mechanism (2) comprising: the first drive sprocket (1), the first driven sprocket (5) be hinged on the first framework (13), the first chain (2b) be sleeved on the first drive sprocket (1) and the first driven sprocket (5) that connect driver element, the lateral surface of the first chain (2b) is arranged at intervals with multiple first crawler belt (2a); Described second Caterpillar transmission mechanism (4) comprising: the second drive sprocket (3), the second driven sprocket (6) be hinged on the second framework (14), the second chain (4b) be sleeved on the second drive sprocket (3) and the second driven sprocket (6) that connect driver element, the lateral surface of the second chain (4b) is arranged at intervals with multiple second crawler belt (4a); Described first crawler belt (2a) and the second crawler belt (4a) interlaced arrangement and between adjacent two the first crawler belts (2a) spacing be greater than the width of second crawler belt (4a); Half cambered surface of the first crawler belt (2a) and half cambered surface of the second crawler belt (4a) are interlocked from both sides therebetween finished steel strand bundle (19) the side outer rim of parcel extruding respectively, and the finished steel strand bundle (19) being staggered parcel extruding moves with the first crawler belt (2a) and the second crawler belt (4a) and is moved conveying.

2. according to the pusher of a kind of finished steel strand bundle described in claim 1, it is characterized in that, described first framework (13) and the second framework (14) are provided with the travel mechanism of adjustment its spacing, and described travel mechanism comprises: screw rod (18), two slide shafts (17) parallel with screw rod (18); Described two slide shafts (17) are positioned at screw rod (18) both sides and sliding joining runs through and support the first framework (13) and the second framework (14), and the two ends of slide shaft (17) are separately fixed on pedestal (15); The both sides of described screw rod (18) are respectively arranged with the contrary screw thread of rotation direction, screw rod (18) both sides rotation direction opposite threads screws respectively and neutralizes in the tapped bore of the second framework (14) at the tapped bore of the first framework (13), screw rod (18) hinged support is on pedestal (15), and a termination of screw rod (18) is protruded and is arranged on pedestal (15) outward.

3. according to the pusher of a kind of finished steel strand bundle described in claim 1, it is characterized in that, described driver element comprises: motor reducer (20, 36), motor reducer (20, 36) output shaft connects the first imput shaft (7), first imput shaft (7) hinged support is on the first framework (13), first imput shaft (7) is equipped with the first drive sprocket (1) and the 3rd drive sprocket (25) respectively, 3rd drive sprocket (25) connects the 3rd driven sprocket (30) by the 3rd chain (33), 3rd driven sprocket (30) is arranged on the first driven shaft (10), first driven shaft (10) is hinged on the second framework (14), first driven shaft (10) is equipped with driving gear (31), the driven gear (32) engaged with driving gear (31) is arranged in the second imput shaft (9), upper connection second drive sprocket (3) of second imput shaft (9), second imput shaft (9) is hinged on the second framework (14), described 3rd drive sprocket (25) is identical with the 3rd driven sprocket (30) structure, driving gear (31) is identical with driven gear (32) structure.

4. according to the pusher of a kind of finished steel strand bundle described in claim 1 or 3, it is characterized in that, also include mobile adjustment sprocket wheel (26), mobile adjustment sprocket wheel (26) is hinged on threaded shaft (27) one end, threaded shaft (27) other end fastener is fixed in the elongated hole (29a) on fixed mount (29), and fixed mount (29) is fixed on pedestal (15); Described mobile adjustment sprocket wheel (26) is sleeved on the 3rd chain (33), and the 3rd chain (33) is also set with the 3rd drive sprocket (25) and the 3rd driven sprocket (30) simultaneously.

5. according to the pusher of a kind of finished steel strand bundle described in claim 1, it is characterized in that, the pedestal (15) exporting finished product steel wire bundle (19) side at described first Caterpillar transmission mechanism (2) and the second Caterpillar transmission mechanism (4) is also provided with two columns (11) of positional symmetry, two roller carrier shafts (12a) be parallel to each other are installed between two columns (11), two roller carrier shafts (12a) are hinged with carrying roller (12) respectively, two carrying rollers (12) respectively Structure deformation are output upper edge and the lower edge of finished product steel wire bundle (19), described two columns (11) are provided with multiple holes of installing roller carrier shaft (12a) diverse location.