CN202967720U - Wire arranging structure of coiling machine - Google Patents

Abstract

The utility model provides a wire arranging structure of a coiling machine, which belongs to the technical field of machinery. By using the wire arranging structure, the problem of inconvenience in wire arrangement as no wire arranging structure is available in the existing coiling machine is solved. The wire arranging structure of the coiling machine comprises a base and a guide rail, wherein the guide rail is fixedly arranged on the base, a sliding block which can horizontally move along the guide rail is arranged on the guide rail, the sliding block is driven by a power structure arranged on the base, the sliding block is provided with a wire pipe which is arranged vertically to the guide rail, and an adjustment mechanism which can be used for adjusting the wire pipe to incline in a certain inclined direction is arranged between the wire pipe and the sliding block. The wire arranging structure has the advantages of reasonable structure design and good wire arranging effect.

Description

A kind of bus-bar construction of coil winder

Technical field

The utility model belongs to field of mechanical technique, relates to a kind of coil winder, the bus-bar construction of a kind of coil winder of special design.

Background technology

After in factory, copper cash, electric wire etc. being created, need to pack it, traditional manual way is: first be ready to a larger barnyard ground cleaning, complete cardboard, film is finished scale on the ground, then length is measured in the bracing wire of manually walking up and down, cut off with scissors by corresponding scale, by hand wire-wound is become coil at last.This manual shortcoming is to take up an area extensively, need to do large quantities of dead work, length inaccuracy, the coil unrest that manually is coiled into, not attractive in appearance; The end properties test is difficult to by and needs a large amount of human inputs, and productive costs is high, and efficient is low.

Along with the development of Steel Wire Products Industry, at a high speed, efficiently, low-cost, Technological adaptability become by force pursuing a goal of enterprise.In the production process of wire rope, coil winder is a kind of equipment of widespread use.Coil winder commonly used, its wire rod is when rolling out moulding, because the poor control of the speed of transmission device is not very accurate, and the structure of curling mould does not coordinate feed rate and the curved characteristic of wire rod, wire rope is when rolling out, can present intermittent the pause, the wire rope that causes rolling out can not be neatly mellow and full, easily causes extruding distortion or the flexural deformation of wire rope.

For this reason, people have proposed a kind of novel coil winder, and this coil winder is by the rotation of driven by motor rotating shaft, sheathed wired mould in rotating shaft, and the wire rope of producing is wound onto on this line mould.This novel coil winder break can not occur when work, but still there is following shortcoming: can not make on the online mould of wire rope uniform winding, in the time of if wire rope need to being wound around on online mould, the end of incoming cables of the wire rope winding direction along the line mould need to be moved, keep away unavoidable manual operation, and waste time and energy, operating accuracy is poor.Therefore, need to provide a kind of bus-bar construction that the winding direction of end of incoming cables mould along the line can be moved.

Summary of the invention

There are the problems referred to above in the utility model for existing technology, has proposed the bus-bar construction of the effective coil winder of a kind of reasonable in design, winding displacement.

The utility model is realized by following technical proposal:

A kind of bus-bar construction of coil winder, comprise base and the guide rail that is fixed on base, described guide rail is provided with can be along the slide block of this guide rail transverse shifting, described slide block is driven by a dynamic structure that is arranged on base, it is characterized in that, have a spool perpendicular to the guide rail setting on described slide block, also be provided with between described spool and slide block and can regulate the adjustment structure that spool tilts in certain direction of tilt.

When operation, the wire rope that needs are reeled wears and passes this spool, and its end is connected with the line mould of coil winder, during spiral, dynamic structure drives slide block and moves, and wire rope along the guide rail transverse shifting, can be wound up into it on line mould of coil winder under the drive of slide block uniformly.If spool and line mould not in order to straight line the time, can make the leading-out terminal of spool and line mould get final product it by regulating the direction of tilt of spool, stability and homogeneity that assurance winds the line, the coiling precision is high.

In the bus-bar construction of above-mentioned coil winder, the top of described slide block has and the vertically disposed groove of guide rail, be provided with adjusting seat in described groove, described spool is located in this adjusting seat, above-mentioned adjustment structure comprises the tapped bore of being located at slider side wall and is located at the interior bolt of this tapped bore, the inner of described tapped bore is communicated with groove, and the inner of described bolt is resisted against on adjusting seat.

When adjusting, unclamp bolt, regulate adjusting seat, after making spool tilt to correct position, tight a bolt, the inner of bolt is abutted on adjusting seat, adjusting seat is fixed.

In the bus-bar construction of above-mentioned coil winder, have two permanent seats that relatively arrange on described base, above-mentioned guide rail is arranged on this permanent seat; Described guide rail comprises that two are parallel to the guide rods that base arranges, and the two ends of described guide rod are separately fixed on two permanent seats, and described two guide rods are parallel to each other, and above-mentioned slide block set is located on described two guide rods and can be along two guide rod transverse shiftings.

Dynamic structure drives slide block along two guide rod transverse shiftings, and two guide rods can guarantee the stability of slide block moving process, and in the winding displacement process, slide block can not be offset, and improves the precision of winding displacement.

In the bus-bar construction of above-mentioned coil winder, described dynamic structure comprises the screw mandrel that is located between two permanent seats and drives the motor that this screw mandrel rotates, described screw mandrel be arranged in parallel between two guide rods and with described two guide rods, above-mentioned slide block set is located on this screw mandrel and with this wire rod thread and is connected, and an end of described screw mandrel passes one of them permanent seat and is connected with described motor.

Drive the screw mandrel forward during motor forward, because slide block is connected with wire rod thread, slide block moves forward or backward in the process that screw mandrel rotates; Drive the screw mandrel backward rotation during motor reversal, slide block along screw mandrel backward or move forward.

In the bus-bar construction of above-mentioned coil winder, also be provided with mount pad on described base, above-mentioned motor is arranged on this mount pad.

In the bus-bar construction of above-mentioned coil winder, the output shaft of described motor is connected by coupler with screw mandrel.

In the bus-bar construction of above-mentioned coil winder, be provided with bearing between described screw mandrel and permanent seat.

Prior art is compared, and the bus-bar construction of this coil winder has the following advantages:

By two guide rods are set, slide block is led, guaranteed its stability in the winding displacement process, winding displacement is effective; By the rotation of driven by motor screw mandrel, thereby with the moving forward and backward of movable slider, degree of automation is high, has improved work efficiency; Can regulate the direction of tilt of spool, improve the precision of winding displacement, and then improve the precision of spiral.

Description of drawings

Fig. 1 is the structural representation of a kind of preferred embodiment of providing of the utility model.

Fig. 2 is the right elevation of Fig. 1.

In figure, 1, base; 2, slide block; 21, groove; 3, spool; 4, adjusting seat; 5, bolt; 6, permanent seat; 7, guide rod; 8, screw mandrel; 9, motor; 10, mount pad; 11, coupler; 12, bearing.

The specific embodiment

Be below specific embodiment of the utility model, and by reference to the accompanying drawings the technical solution of the utility model be further described, but the utility model is not limited to these embodiment.

As shown in Figure 1, the bus-bar construction of this coil winder, comprise base 1 and the guide rail that is fixed on base 1, guide rail is provided with can be along the slide block 2 of this guide rail transverse shifting, slide block 2 is driven by a dynamic structure that is arranged on base 1, have a spool 3 perpendicular to the guide rail setting on slide block 2, also be provided with between spool 3 and slide block 2 and can regulate the adjustment structure that spool 3 tilts in certain direction of tilt.

As described in Figure 1, the top of slide block 2 has and the vertically disposed groove 21 of guide rail, be provided with adjusting seat 4 in groove 21, spool 3 is located in this adjusting seat 4, as shown in Figure 2, this adjustment structure comprises the tapped bore of being located at slide block 2 sidewalls and the bolt 5 of being located in this tapped bore, and the inner of tapped bore is communicated with groove 21, and the inner of bolt 5 is resisted against on adjusting seat 4.When adjusting, unclamp bolt 5, regulate adjusting seat 4, after making spool 3 tilt to correct position, tight a bolt 5, the inner of bolt 5 is abutted on adjusting seat 4, adjusting seat 4 is fixed.

As shown in Figure 1, have two permanent seats 6 that relatively arrange on base 1, guide rail is arranged on this permanent seat 6.Guide rail comprises that two are parallel to the guide rods 7 that base 1 arranges, and the two ends of guide rod 7 are separately fixed on two permanent seats 6, and two guide rods 7 are parallel to each other, and slide block 2 is set on two guide rods 7 and can be along two guide rod 7 transverse shiftings.Dynamic structure drives slide block 2 along two guide rod 7 transverse shiftings, and two guide rods 7 can guarantee the stability of slide block 2 moving process, and in the winding displacement process, slide block 2 can not be offset, and improves the precision of winding displacement.

As shown in Figure 1, dynamic structure comprises the screw mandrel 8 that is located between two permanent seats 6 and drives the motor 9 that this screw mandrel 8 rotates, screw mandrel 8 be arranged in parallel between two guide rods 7 and with described two guide rods 7, slide block 2 is set on this screw mandrel 8 and with this screw mandrel 8 and is threaded, and an end of screw mandrel 8 passes one of them permanent seat 6 and is connected with motor 9.Drive screw mandrel 8 forwards during motor 9 forward, because slide block 2 is threaded with screw mandrel 8, slide block 2 moves forward or backward in the process that screw mandrel 8 rotates; Drive screw mandrel 8 backward rotation during motor 9 counter-rotating, slide block 2 along screw mandrel 8 backward or move forward.

As shown in Figure 1, also be provided with mount pad 10 on base 1, motor 9 is arranged on this mount pad 10.As shown in Figure 1, the output shaft of motor 9 is connected by coupler 11 with screw mandrel 8, and is provided with bearing 12 between screw mandrel 8 and permanent seat 6.

When operation, the wire rope that needs are reeled wears and passes this spool 3, and its end is connected with the line mould of coil winder, during spiral, dynamic structure drives slide block 2 and moves, and wire rope along the guide rail transverse shifting, can be wound up into it on line mould of coil winder under the drive of slide block 2 uniformly.If spool 3 when the line mould is not in order to straight line, can make the leading-out terminal of spool 3 and line mould get final product it by regulating the direction of tilt of spool 3, stability and homogeneity that assurance winds the line, the coiling precision is high.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various modifications or replenishes or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present utility model or surmount the defined scope of appended claims.

Although this paper has more used 1, base; 2, slide block; 21, groove; 3, spool; 4, adjusting seat; 5, bolt; 6, permanent seat; 7, guide rod; 8, screw mandrel; 9, motor; 10, mount pad; 11, coupler; 12, the term such as bearing, but do not get rid of the possibility of using other term.Using these terms is only in order to describe more easily and explain essence of the present utility model; They are construed to any additional restriction is all contrary with the utility model spirit.

Claims (7)

1. the bus-bar construction of a coil winder, comprise base (1) and be fixed at guide rail on base (1), described guide rail is provided with can be along the slide block (2) of this guide rail transverse shifting, described slide block (2) is driven by a dynamic structure that is arranged on base (1), it is characterized in that, have a spool (3) perpendicular to the guide rail setting on described slide block (2), also be provided with between described spool (3) and slide block (2) and can regulate the adjustment structure that spool (3) tilts in certain direction of tilt.

2. the bus-bar construction of a kind of coil winder according to claim 1, it is characterized in that, the top of described slide block (2) has and the vertically disposed groove of guide rail (21), be provided with adjusting seat (4) in described groove (21), described spool (3) is located in this adjusting seat (4), above-mentioned adjustment structure comprises the tapped bore of being located at slide block (2) sidewall and is located at the interior bolt (5) of this tapped bore, the inner of described tapped bore is communicated with groove (21), the inner of described bolt (5) is resisted against on adjusting seat (4).

3. the bus-bar construction of a kind of coil winder according to claim 2, is characterized in that, has two permanent seats (6) that relatively arrange on described base (1), and above-mentioned guide rail is arranged on this permanent seat (6); Described guide rail comprises that two are parallel to the guide rod (7) that base (1) arranges, the two ends of described guide rod (7) are separately fixed on two permanent seats (6), and described two guide rods (7) are parallel to each other, and above-mentioned slide block (2) is set in described two guide rods (7) upward and can be along two guide rods (7) transverse shifting.

4. the bus-bar construction of a kind of coil winder according to claim 3, it is characterized in that, described dynamic structure comprises the screw mandrel (8) that is located between two permanent seats (6) and drives the motor (9) that this screw mandrel (8) rotates, described screw mandrel (8) is positioned between two guide rods (7) and with described two guide rods (7) and be arranged in parallel, above-mentioned slide block (2) is set in this screw mandrel (8) upward and is threaded with this screw mandrel (8), one end of described screw mandrel (8) passes one of them permanent seat (6) and is connected with described motor (9).

5. the bus-bar construction of a kind of coil winder according to claim 4, is characterized in that, also is provided with mount pad (10) on described base (1), and above-mentioned motor (9) is arranged on this mount pad (10).

6. the bus-bar construction of according to claim 4 or 5 described a kind of coil winders, is characterized in that, the output shaft of described motor (9) is connected by coupler (11) with screw mandrel (8).

7. the bus-bar construction of a kind of coil winder according to claim 6, is characterized in that, is provided with bearing (12) between described screw mandrel (8) and permanent seat (6).

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