CN204023074U - A kind of 12 cradle devices of large scale I-beam wheel - Google Patents

Abstract

The utility model relates to a kind of 12 cradle devices of large scale I-beam wheel, comprise: frame, line deflector roll, main shaft, oscillating rod device, noseplate, press mold adjusting bracket, commutation guide wheel assembly were installed in described frame, described frame two ends are separately installed with rotary aluminum dish, and described rotary aluminum dish front end is also provided with bearing block; The described line deflector roll of crossing comprised line deflector roll a and crossed line deflector roll b; Described main shaft comprises main shaft a, main shaft b, is set with core thigh I-beam wheel a on described main shaft a, is set with single steel wire I-beam wheel b on described main shaft b.The beneficial effects of the utility model are: by adopting large scale I-beam wheel, can effectively reduce and change the dish time, and machine open, shut down frequency, improved the production efficiency of steel cord; On the other hand, can solve the problem that steel cord welding point is many, guarantee that finished silk has better quality.

Description

A kind of 12 cradle devices of large scale I-beam wheel

Technical field

The utility model relates to a kind of 12 cradle devices of large scale I-beam wheel.

Background technology

Steel cord is the framework material of various vehicle tyres and aero tyre and other rubbers, and along with the fast development of similar industry, the demand of steel cord is also increasing, and people are also more and more higher to the quality requirements of steel cord.

At present, existing 12 cradle devices mostly adopt the I-beam wheel of small dimension, and the sth. made by twisting thigh silk total amount that the I-beam wheel of small dimension can be loaded no doubt will be lacked, and so just bring the problem that needs in process of production the short time to change I-beam wheel.For manufacturer, the running of the long-time continuous of machine certainly will be able to improve the production efficiency of cord.Therefore, need to reduce the replacement frequency of I-beam wheel.The reduction of replacement frequency has reduced again producers' the supervision to I-beam wheel from another point of view, even can utilize this part time of saving to allow it take into account other work.In addition, the steel cord of short time twisting, cord length falls short of, and the joint that finished silk need to weld is many, affected the overall quality of finished silk, and quality and market and price is closely bound up, for manufacturer, certainly more wishes maximum interests.

Utility model content

For the weak point existing in the problems referred to above, the utility model provides a kind of 12 cradle devices of large scale I-beam wheel.

For achieving the above object, the utility model provides a kind of 12 cradle devices of large scale I-beam wheel, comprising:

Frame, was provided with line deflector roll, main shaft, oscillating rod device, noseplate, press mold adjusting bracket, commutation guide wheel assembly in described frame, described frame two ends are separately installed with rotary aluminum dish, and described rotary aluminum dish front end is also provided with bearing block;

The described line deflector roll of crossing comprised line deflector roll a and crossed line deflector roll b;

Described main shaft comprises main shaft a, main shaft b, is set with core thigh I-beam wheel a on described main shaft a, is set with single steel wire I-beam wheel b on described main shaft b.

As the utility model, further improve, crane span structure is in the upper lower limb outside of described frame respectively for two flywheel rings, and described flywheel ring two ends are fixed on described rotary aluminum dish.

As the utility model, further improve, described oscillating rod device comprises oscillating rod device a and oscillating rod device b, and described oscillating rod device a is connected with described main shaft a, described main shaft b with tension band b by tension band a respectively with described oscillating rod device b.

The beneficial effects of the utility model are: by adopting large scale I-beam wheel, can effectively reduce and change the dish time, and machine open, shut down frequency, improved the production efficiency of steel cord; On the other hand, can solve the problem that steel cord welding point is many, guarantee that finished silk has better quality.

Accompanying drawing explanation

Fig. 1 is the structural representation of 12 cradle devices of a kind of large scale I-beam wheel of the utility model.

In figure: 1, frame; 2, cross line deflector roll a; 3, core thigh I-beam wheel a; 4, main shaft a; 5, tension band a; 6, oscillating rod device a; 7, noseplate; 8, press mold adjusting bracket; 9, main shaft b; 10, tension band b; 11, oscillating rod device b; 12, flywheel ring; 13, commutation guide wheel assembly; 14, rotary aluminum dish; 15, bearing block; 16, cross line deflector roll b; 17, single steel wire I-beam wheel b.

The specific embodiment

As shown in Figure 1,12 cradle devices of a kind of large scale I-beam wheel described in the utility model embodiment, comprise: frame 1, line deflector roll, main shaft, oscillating rod device, noseplate 7, press mold adjusting bracket 8, commutation guide wheel assembly 13 were installed in described frame 1, described frame 1 two ends are separately installed with rotary aluminum dish 14, and described rotary aluminum dish 14 front ends are also provided with bearing block 15; The described line deflector roll of crossing comprised line deflector roll a2 and crossed line deflector roll b16; Described main shaft comprises main shaft a4, main shaft b9, is set with core thigh I-beam wheel a3 on described main shaft a4, is set with single steel wire I-beam wheel b17 on described main shaft b9.Twisting with the fingers strand silk draws by crossing line deflector roll through described I-beam wheel again.Described I-beam wheel comprises a core thigh I-beam wheel a and 12 single steel wire I-beam wheel b, and rule is arranged in whole described frame.Described I-beam wheel is for laying the steel wire of different size.The inner ring diameter of described core thigh I-beam wheel a is 98 millimeters, and flange diameter is 260 millimeters, and I-beam wheel available width is 230 millimeters, and overall width is 262 millimeters; The inner ring diameter of described single steel wire I-beam wheel b is 90 millimeters, and flange diameter is 200 millimeters, and I-beam wheel available width is 128 millimeters, and overall width is 154 millimeters.Compare with the I-beam wheel of using in the past, the flange diameter of core thigh I-beam wheel has increased 40～50 millimeters; The flange diameter of single steel wire I-beam wheel and available width have all increased 40～50 millimeters.Described tension force swing-bar mechanism consists of the tension band being connected, spring and oscillating rod device, and described tension band is set on the main shaft of described I-beam wheel installation.The mode that described main shaft adopts bearing to connect is arranged in described frame.Described tension force swing-bar mechanism has played the effect that tension force is controlled and cushioned in whole sth. made by twisting strand silk course of conveying, to avoid fracture and the sleave phenomenon of steel wire in production process.Described tension force swing-bar mechanism is arranged on the outside of I-beam wheel described in each.Described line deflector roll and the described commutation guide wheel assembly crossed twisted with the fingers burst threading technique of silk and moved towards for changing, carry and twist with the fingers strand silk to suitable position, be uniformly distributed in centre bore and the outer shroud pilot hole of described noseplate, then be jointly pressed into described press mold adjusting bracket, from described end of incoming cables, be connected with described flywheel ring again, by described flywheel ring, extend to described leading-out terminal, by rotatablely moving of described rotary aluminum dish, be twisted into thigh.On the end of incoming cables of described frame and leading-out terminal, be also separately installed with bearing block, the mode that described bearing block adopts bearing to connect is arranged on respectively on the inlet wire and outlet main shaft of strander.By adopting large scale I-beam wheel, can effectively reduce and change the dish time, and machine open, shut down frequency, improved the production efficiency of steel cord; On the other hand, can solve the problem that steel cord welding point is many, guarantee that finished silk has better quality.

Further, crane span structure is in the upper lower limb outside of described frame 1 respectively for two flywheel rings 12, and described flywheel ring 12 two ends are fixed on described rotary aluminum dish 14.Described flywheel ring is installed in the edge of described frame arch, and is connected with described rotary aluminum dish, on described flywheel ring, is evenly distributed with a plurality of wire guides, for the fixing strand silk of twisting with the fingers, guarantees can not run line in rotary course.

Further, described oscillating rod device comprises oscillating rod device a6 and oscillating rod device b11, and described oscillating rod device a6 is connected with described main shaft a4, described main shaft b9 with tension band b10 by tension band a5 respectively with described oscillating rod device b11.

During concrete use: by frame 1 and be arranged on core thigh I-beam wheel a3, single steel wire I-beam wheel b17, tension force swing-bar mechanism a, tension force swing-bar mechanism b, noseplate 7, press mold adjusting bracket 8 in frame 1, cross line deflector roll 2 and 16, commutation guide wheel assembly 13, flywheel ring 12 and rotary aluminum dish 14 and form.On the end of incoming cables of frame 1 and leading-out terminal, being separately installed with the mode that 15, two bearing blocks of bearing block adopt bearings to connect is arranged at respectively on the inlet wire main shaft and outlet main shaft of strander.Cross the side that line deflector roll a2 and 12 mistake line deflector roll b16 are arranged on respectively core thigh I-beam wheel a3 and 12 single steel wire I-beam wheel b17 for 1.Two rotary aluminum dishes are arranged on respectively end of incoming cables and the leading-out terminal of frame, and are connected with flywheel ring 12.The installation that overarches of 12, the flywheel ring outer rim in frame 1 is evenly distributed with a plurality of through wires holes for wire on flywheel ring 12.

Tension force swing-bar mechanism a has one group, the tension band a5 being connected, spring and oscillating rod device a6, consists of, and it is upper that tension band a5 is set in main shaft a4, for regulating the rotating speed of main shaft a4 and the payingoff speed of core thigh I-beam wheel a3.The mode that main shaft a4 adopts bearing to connect is arranged in frame 1.Core thigh I-beam wheel a3 is set in the outside of main shaft a4, twists with the fingers the sth. made by twisting thigh silk of strand silk and other specifications for laying the multiply of extraordinary gauge steel cord.Tension force swing-bar mechanism a has played the effect that tension force is controlled and cushioned in core thigh steel wire course of conveying, to avoid fracture and the sleave phenomenon of steel wire in production process.Whole tension force swing-bar mechanism a is positioned at core thigh I-beam wheel a3 around, supporting installation.

Tension force swing-bar mechanism b has 12 groups, by the tension band b10 being connected, spring and oscillating rod device b11, forms.It is upper that tension band b10 is set in main shaft b9, for regulating the rotating speed of each main shaft b9 and the payingoff speed of each single steel wire I-beam wheel b17.The mode that main shaft b9 adopts bearing to connect is arranged in frame 1.Single steel wire I-beam wheel b17 is set in the outside of main shaft b9, for laying the steel cord of single steel wire or common specification.Tension force swing-bar mechanism b has played the effect that tension force is controlled and cushioned in single steel wire course of conveying, to avoid fracture and the sleave phenomenon of single steel wire in production process.12 groups of tension force swing-bar mechanism b lay respectively at each single steel wire I-beam wheel b17 around, supporting installation.

Cross the side that line deflector roll a2 is positioned at core thigh I-beam wheel a3, cross the side that line deflector roll b16 is positioned at each single steel wire I-beam wheel, for drawing cloth, be placed on the steel wire in I-beam wheel.The multiple tracks of the sth. made by twisting thigh moulding laying on core thigh I-beam wheel a3 twist with the fingers strand silk by tension force swing-bar mechanism a, cross line deflector roll a2 and commutation guide wheel assembly 13 penetrates the centre bore of noseplate 7 with certain wire winding and commutation.The single steel wire laying on each single steel wire I-beam wheel b17 by tension force swing-bar mechanism b, cross the outer shroud pilot hole that line deflector roll b16 and commutation guide wheel assembly 13 and certain wire winding and commutation penetrate noseplate 7, and be uniformly distributed.

When producing steel cord, single steel wire and multiply are twisted with the fingers a strand silk and are jointly entered press mold adjusting bracket 8, then, by end of incoming cables, are connected with flywheel ring 12, through the pilot hole of evenly arranging on flywheel ring 12; Finally, by rotary aluminum dish 14 high-speed rotaries of driven by motor, transferred the sth. made by twisting thigh moulding process of whole steel cord.

12 cradle devices of the large scale I-beam wheel that the utility model provides, can reduce the replacement frequency of I-beam wheel, reduce consumption while shutting down, and make the machine can long-time continuous running, improve yield rate and the production efficiency of product.Secondly, can reduce the supervision of producers to I-beam wheel, even can utilize this part time of saving, allow staff take into account other work, reach the effect that human resources are rationalized domination.In addition, the steel cord length that the strander of long time continuous working is produced is longer, can reduce the welding point quantity of finished silk, improves the overall quality of finished silk, for manufacturer brings larger economic interests.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (3)

1. 12 cradle devices of large scale I-beam wheel, is characterized in that, comprising:

Frame (1), line deflector roll, main shaft, oscillating rod device, noseplate (7), press mold adjusting bracket (8), commutation guide wheel assembly (13) were installed in described frame (1), described frame (1) two ends are separately installed with rotary aluminum dish (14), and described rotary aluminum dish (14) front end is also provided with bearing block (15);

The described line deflector roll of crossing comprised line deflector roll a (2) and crossed line deflector roll b (16);

Described main shaft comprises main shaft a (4), main shaft b (9), is set with core thigh I-beam wheel a (3) on described main shaft a (4), is set with single steel wire I-beam wheel b (17) on described main shaft b (9).

2. 12 cradle devices of large scale I-beam wheel according to claim 1, it is characterized in that: crane span structure is in the upper lower limb outside of described frame (1) respectively for two flywheel rings (12), and described flywheel ring (12) two ends are fixed on described rotary aluminum dish (14).

3. 12 cradle devices of large scale I-beam wheel according to claim 1, it is characterized in that: described oscillating rod device comprises oscillating rod device a (6) and oscillating rod device b (11), and described oscillating rod device a (6) is connected with described main shaft a (4), described main shaft b (9) with tension band b (10) by tension band a (5) respectively with described oscillating rod device b (11).