CN115559144A - Head melting method of electric rotary steel wire rope head melting machine - Google Patents

Abstract

The invention relates to a head melting method of an electric rotary steel wire rope head melting machine.A clamp mechanism of a left melting head assembly and a clamp mechanism of a right melting head assembly respectively clamp two ends of a steel wire rope; low-voltage heavy current adds at the both ends that wire rope needs the fusing through mating grabbing anchor clamps, make fusing department generate heat and burn red until wire rope melts together, electric rotary mechanism gets electric drive right side anchor clamps body rotatory when the wire rope is fused, left side fuse subassembly is tensile to wire rope, the pneumatic cylinder area is tensile end wire rope anchor clamps mechanism and is outwards stretched, two toper states that diameter diminishes in the middle of making wire rope fusing's both ends form, until being pulled apart, fused wire rope both ends have just formed two structures inseparable, the sharp toper fag end that the head steel wire fused together. According to the invention, the fused steel wire rope is stretched and rotated at the same time, so that two pointed conical rope ends are formed at two ends of the fused steel wire rope, the production requirement of the steel wire rope is met, the production cost is saved, and the production benefit is improved.

Description

Head melting method of electric rotary steel wire rope head melting machine

Technical Field

The invention relates to the technical field of steel wire rope production equipment, in particular to a head melting method of an electric rotary type steel wire rope head melting machine, which is suitable for melting and fusing special steel wire ropes with the diameter of 10-60 mm.

Background

At present, after the production of the steel wire rope is finished, the steel wire rope needs to be cut to a fixed length according to the length requirement of the steel wire rope. The traditional method is to cut the steel wire rope into fixed length by a cutting machine, because the steel wire rope has certain elastic torsion, the head of the steel wire rope can be loosened after the steel wire rope is cut off, therefore, the steel wire rope needs to be compacted at two cut-off ends before the steel wire rope is cut off, the steel wire rope can be prevented from being scattered after the steel wire rope is cut off, particularly, special steel wire ropes are provided, in order to prevent the steel wire rope from being twisted in use, a multilayer structure is adopted, wherein the twisting direction of each layer is different, and the twisting generated in the twisting process of the steel wire rope is neutralized in a left twisting mode and a right twisting mode, so that the steel wire rope is called as the anti-twisting steel wire rope. However, after the steel wire rope is cut off, the steel wire rope can be quickly contracted inwards due to the fact that the steel wire rope is multi-layered and different in twisting direction, only one outer sleeve layer is possibly left in a hollow head of the steel wire rope, therefore, the steel wire rope is required to be welded together by electric welding immediately after the steel wire rope is cut off except for tightening two ends of the cut-off position of the steel wire rope, the work is complicated, the electric welding steel wire rope head is like a exploded hedgehog, the subsequent use is influenced, and particularly when the steel wire rope head needs to penetrate through a hole of lifting equipment, the steel wire rope head is more difficult to use. An electric rotary steel wire rope melting machine which can effectively fix all steel wire positions of a steel wire rope head to enable the steel wire rope head to be melted together and enable the head of a steel wire rope to be tapered becomes a look-ahead of steel wire rope production enterprises.

Disclosure of Invention

The invention aims to overcome the defects and provides a method for melting a steel wire rope by using an electric rotary type steel wire rope melting machine.

The purpose of the invention is realized as follows:

a head melting method of an electric rotary type steel wire rope head melting machine comprises the following steps:

step one, respectively clamping two ends of a steel wire rope by a clamp mechanism of a left melting head assembly and a clamp mechanism of a right melting head assembly;

and secondly, applying low-voltage large current to two ends of the steel wire rope to be fused through the paired grabbing clamps, heating and burning the fused part until the steel wire rope is fused together, electrically driving the right clamp body to rotate when the steel wire rope is fused, stretching the steel wire rope by the left fuse assembly, driving the stretching end steel wire rope clamp mechanism to stretch outwards by the hydraulic cylinder, forming two conical states with the middle diameter reduced at the two ends of the fused steel wire rope, and forming two pointed conical rope ends with compact structures and fused head steel wires at the two ends of the fused steel wire rope until the two tapered rope ends are pulled apart.

Preferably, left side fuse-element subassembly and right fuse-element subassembly set up the left and right sides at the frame case, left side fuse-element subassembly includes left seat frame, left conductive seat, the left anchor clamps body and pneumatic cylinder, right side fuse-element subassembly includes electric rotary mechanism, right seat frame, right conductive seat and the right anchor clamps body, left side anchor clamps body and right anchor clamps body head all are equipped with centre gripping wire rope's fixture mechanism, left side seat frame, right seat frame are fixed on the frame case, be equipped with left conductive seat on the seat frame of a left side, be equipped with right conductive seat on the seat frame of the right side, the sliding fit has the left anchor clamps body in the conductive seat of a left side, and the left anchor clamps body passes through pneumatic cylinder axial displacement, the right conductive seat internal rotation is equipped with the right anchor clamps body, the right anchor clamps body is rotatory by the electric rotary mechanism drive.

Preferably, the tail of the left clamp body is connected with the center of the tensile axial connecting plate, the cylinder bodies of the two hydraulic cylinders are fixed on the front side and the rear side of the left seat frame, and the piston rods of the two hydraulic cylinders are connected with the front end and the rear end of the tensile axial connecting plate.

Preferably, the fixture mechanism includes preceding anchor clamps seat, back anchor clamps seat, two-way screw rod, fixed plate and two-way screw rod fixation nut, is equipped with the fixed plate in the one end that corresponds the front and back end that presss from both sides specific anchor clamps chamber, two-way screw rod stretches into the anchor clamps chamber from the fixed plate, two-way screw rod fixation nut fixes the play axle head at two-way screw rod, two parts screw thread of two-way screw rod revolve to opposite, anchor clamps seat, back anchor clamps seat before two sections screw threads of two-way screw rod spiro union separately, be equipped with first electrode in the preceding anchor clamps seat, be equipped with the second electrode in the back anchor clamps seat.

Preferably, the bidirectional screw is further provided with an axial plane bearing, the axial plane bearing is arranged on the polished rod part of the bidirectional screw, the axial plane bearing is close to the fixing plate, and the axial plane bearing and the bidirectional screw fixing nut are distributed on the inner side and the outer side of the fixing plate.

Preferably, electric rotary mechanism includes gear motor, worm axle, worm wheel carousel and drive disk assembly mechanical seat, gear motor's play axle head passes through the shaft coupling and connects the worm axle, the worm axle meshes with the worm wheel carousel, the worm axle rotates and sets up in drive disk assembly mechanical seat, the specific tail end of right side clamp passes through the screw and is connected with the center of worm wheel carousel.

Preferably, a protective cover shell is arranged outside the worm wheel large turntable.

Preferably, a waste oil pan is arranged between the left melting head assembly and the right melting head assembly, and the waste oil pan is also fixed on the rack box.

Preferably, after the clamp mechanism in the clamp cavity of the left clamp body is assembled, a clamp body cover plate is arranged on the right side of the clamp cavity.

The invention has the beneficial effects that:

the low-voltage large current is applied to two ends of the steel wire rope to be fused through the paired grabbing clamps, so that the fused part is heated and burned until the steel wire rope is fused together, the left and right fuse head assemblies work simultaneously to form two conical states that one side rotates and the other side stretches, the two ends of the fused steel wire rope form two conical rope heads with the middle diameters being reduced until the two conical rope heads are broken, the two ends of the fused steel wire rope form two conical rope heads with compact structures and head steel wires fused together, the production requirements of the steel wire rope are met, the production cost is saved, and the production benefit is improved;

adopt the pneumatic cylinder to carry out one side axial tension, adopt electronic rotation to carry out the rotation of another side, compare with manual melt head machine, greatly reduced intensity of labour, improved melt head work efficiency.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a right side view of fig. 1.

Fig. 3 is a schematic structural view of the clamp mechanism.

Fig. 4 is a top view of the grab clamp.

Fig. 5 is a schematic view of the internal structure of the grasping jig.

Wherein: a rack case 1; a left seat frame 2; a left conductive seat 3; a left clamp body 4; stretching the axial connecting plate 5; a hydraulic cylinder 6; a clamp mechanism 7; a front clamp base 7.1; a rear clamp base 7.2; a bidirectional screw 7.3; a fixing plate 7.4; a bidirectional screw fixing nut 7.5; a first electrode 7.6; a second electrode 7.7; an axial plane bearing 7.8; an electric rotating mechanism 8; a speed reduction motor 8.1; a worm shaft 8.2; a worm wheel big turntable 8.3; a transmission part mechanical seat 8.4; a coupler 8.5; a thrust ball bearing 8.6; a bearing cap 8.7; a protective housing 8.8; a worm wheel gap filling block 8.9; a right seat frame 9; a right conductive seat 10; a right clamp body 11; a waste oil pan 12; a smoke exhaust machine 13; the clamp body cover plate 14.

Detailed Description

Referring to fig. 1-5, the invention relates to an electric rotary type steel wire rope fuse head machine, which comprises a rack box 1, wherein a left fuse head assembly and a right fuse head assembly are arranged on the rack box 1, the left fuse head assembly stretches a fuse steel wire rope, and the right fuse head assembly rotates the fuse steel wire rope. Left side fuse-element subassembly and right fuse-element subassembly set up on same axis, set up on rack case 1 about left side fuse-element subassembly and the right fuse-element subassembly, left side fuse-element subassembly includes left seat frame 2, left conductive seat 3, left anchor clamps body 4, tensile axial connecting plate 5, pneumatic cylinder 6 and fixture mechanism 7, left side seat frame 2 is fixed on rack case 1, be equipped with left conductive seat 3 on the seat frame 2 of a left side, the sliding fit has left anchor clamps body 4 in the conductive seat 3 of a left side, the afterbody of left side anchor clamps body 4 passes through the center of the tensile axial connecting plate 5 of screwed connection, and the cylinder body of two pneumatic cylinders 6 is fixed in left seat frame 2 both sides around, both ends around tensile axial connecting plate 5 are connected to the piston rod of two pneumatic cylinders 6, and left anchor clamps body 4 can axial reciprocating motion under the effect of tensile axial connecting plate 5, pneumatic cylinder 6.

The clamp mechanism 7 is arranged at the head of the left clamp body 4, a clamp cavity is formed in the head of the left clamp body 4 corresponding to the clamp mechanism 7, the clamp mechanism 7 comprises a front clamp seat 7.1, a rear clamp seat 7.2, a bidirectional screw 7.3, a fixing plate 7.4 and a bidirectional screw fixing nut 7.5, the bidirectional screw 7.3 is perpendicular to the moving direction of the left clamp body 4, the fixing plate 7.4 is arranged at one end of the front end and the rear end of the clamp cavity of the left clamp body 4, the fixing plate 7.4 is fixed with the left clamp body 4 through a screw, the bidirectional screw 7.3 extends into the clamp cavity of the left clamp body 4 from the fixing plate 7.4, the bidirectional screw fixing nut 7.5 is fixed at the shaft outlet end of the bidirectional screw 7.3, a first electrode 7.6 is arranged in the front clamp seat 7.1, a second electrode 7.7 is arranged in the rear clamp seat 7.2, the first electrode 7.6 and the second electrode 7.7 are paired to form a grabbing clamp, and can implement clamping, fusing and clamping, head and fusing of a steel wire rope with a very small diameter specification. The two parts of the threads of the bidirectional screw 7.3 are opposite in rotating direction, two sections of the threads of the bidirectional screw 7.3 are respectively screwed with the front clamp seat 7.1 and the rear clamp seat 7.2, the front section of the threads of the bidirectional screw 7.3 is left-handed threads, the rear section of the threads of the bidirectional screw 7.3 is right-handed threads, when the bidirectional screw 7.3 is rotated, the rear clamp seat 7.2 and the front clamp seat 7.1 move in the same direction, namely the bidirectional screw 7.3 rotates rightwards, and the rear clamp seat 7.2 and the front clamp seat 7.1 clamp the steel wire rope at the same time; the bidirectional screw 7.3 rotates left, the rear clamp seat 7.2 and the front clamp seat 7.1 are simultaneously loosened, the fusing of steel wire ropes with various specifications and diameters is realized by adjusting the gap between the front and rear clamp seats 7.1 and 7.2, and the clamps do not need to be replaced in production.

The bidirectional screw 7.3 is further provided with an axial plane bearing 7.8, the axial plane bearing 7.8 is arranged on a polished rod part of the bidirectional screw 7.3, the axial plane bearing 7.8 is close to the fixing plate 7.4, and the axial plane bearing 7.8 and the bidirectional screw fixing nut 7.5 are distributed on the inner side and the outer side of the fixing plate 7.4, so that the axial plane bearing 7.8 can bear axial force, and the bidirectional screw 7.3 is guaranteed to have small resistance and flexible rotation when being rotationally clamped.

The right fuse-element assembly comprises an electric rotating mechanism 8, a right seat frame 9, a right conductive seat 10, a right clamp body 11 and a clamp mechanism 7, the right seat frame 9 is fixed on a rack box 1, the right conductive seat 10 is arranged on the right seat frame 9, the right clamp body 11 is rotationally arranged in the right conductive seat 10, the right clamp body 11 is driven to rotate by the electric rotating mechanism 8, the electric rotating mechanism 8 comprises a speed reducing motor 8.1, a worm shaft 8.2, a worm wheel large rotating disc 8.3 and a transmission part mechanical seat 8.4, the shaft outlet end of the speed reducing motor 8.1 is connected with the worm shaft 8.2 through a coupler 8.5, the worm shaft 8.2 is meshed with the worm wheel large rotating disc 8.3, the worm shaft 8.2 is rotationally arranged in the transmission part mechanical seat 8.4, two ends of the worm shaft 8.2 are respectively provided with thrust ball bearings 8.6, the worm wheel shaft 8.2 is supported by the thrust ball bearings 8.6, the tail end of the right clamp body 11 is connected with the center of the large rotating disc 8.3 through a screw, the speed reducing motor 8.1 drives the worm wheel shaft 8.2 to rotate, and the right clamp mechanism 11 is also provided with the right clamp mechanism 11, and the right clamp mechanism 11 is driven by the worm wheel clamp mechanism 11 and the right clamp mechanism 11.

When the speed reducing motor 8.1 is electrified to rotate, the coupler 8.5 drives the worm shaft 8.2 to rotate, and at the moment, the worm wheel large rotating disc 8.3 meshed with the worm shaft 8.2 rotates along with the rotation of the worm shaft 8.2, so that twisting when the steel wire rope is fused is realized. The distance between two thrust ball bearings 8.6 is fixed by the corresponding shaft steps at the two ends of a worm shaft 8.2, the outer rings of the thrust ball bearings 8.6 are assembled in cavities at the two ends of a transmission part mechanical seat 8.4 to support the rotation of the worm shaft 8.2, a bearing cover 8.7 is assembled outside the cavities at the two ends of the transmission part mechanical seat 8.4 to fix the axial movement of the thrust ball bearings 8.6, the worm shaft 8.2 rotates to drive a large worm wheel rotating disc 8.3 to rotate when a speed reducing motor 8.1 is electrified, and the transmission part mechanical seat 8.4 is a rotation transmission assembly and bears the twisting torque force when a steel wire rope is fused.

And a waste oil pan 12 is arranged between the left melting head assembly and the right melting head assembly, and the waste oil pan 12 is also fixed on the frame box 1 and is used for carrying waste oil falling due to heating of the steel wire rope.

And a protective cover 8.8 is arranged outside the worm wheel big rotating disc 8.3, and the protective cover 8.8 is used as a safety protection element of the worm wheel big rotating disc 8.3.

The rack box 1 is further provided with a smoke exhaust machine 13, and the smoke exhaust machine 13 exhausts smoke emitted by heating of the steel wire ropes.

After the clamp mechanism 7 in the clamp cavity of the left clamp body 4 is assembled, a clamp body cover plate 14 is arranged on the right side of the clamp cavity to prevent the clamp mechanism from moving transversely.

In order to facilitate the traction of the steel wire rope, the steel wire rope is initially positioned, a limit groove is radially arranged on the large worm wheel turntable 8.3, the limit groove can lead the large worm wheel turntable 8.3 to be provided with a gap, and therefore a large worm wheel filling block 8.9 is arranged outside the limit groove, and the normal rotation of the large worm wheel turntable is ensured.

A head melting method of an electric rotary steel wire rope head melting machine comprises the following steps:

step one, respectively clamping two ends of a steel wire rope by a clamp mechanism of a left melt head assembly and a clamp mechanism of a right melt head assembly;

secondly, low-voltage large current is added to two ends of the steel wire rope to be fused through the paired grabbing clamps, the fused part is heated and burned until the steel wire rope is fused together, the electric rotating mechanism is electrified to drive the right clamp body to rotate while the steel wire rope is fused, the lay length of the head part of the steel wire rope to be fused is compact, and the fused part of the steel wire rope is fully fused together; simultaneously, the left fuse assembly stretches the steel wire rope, when the stretching end hydraulic cylinder works, the hydraulic cylinder drives the stretching end steel wire rope clamp mechanism to stretch outwards, the left fuse assembly and the right fuse assembly work simultaneously to form one side rotating and the other side stretching, so that two ends of the fused steel wire rope form two conical states with the middle diameter being reduced until the fused steel wire rope is broken, two ends of the fused steel wire rope form two pointed conical rope ends with compact structures and head steel wires fused together, the production requirement of the steel wire rope is met, the production cost is also saved, and the production benefit is improved.

In addition to the above embodiments, the present invention also includes other embodiments, and any technical solutions formed by equivalent transformation or equivalent replacement should fall within the scope of the claims of the present invention.

Claims (9)

1. A head melting method of an electric rotary steel wire rope head melting machine is characterized by comprising the following steps: the method comprises the following steps:

step one, respectively clamping two ends of a steel wire rope by a clamp mechanism of a left melt head assembly and a clamp mechanism of a right melt head assembly;

and secondly, applying low-voltage large current to two ends of the steel wire rope to be fused through the paired grabbing clamps, heating and burning the fused part until the steel wire rope is fused together, electrically driving the right clamp body to rotate when the steel wire rope is fused, stretching the steel wire rope by the left fuse assembly, driving the stretching end steel wire rope clamp mechanism to stretch outwards by the hydraulic cylinder, forming two conical states with the middle diameter reduced at the two ends of the fused steel wire rope, and forming two pointed conical rope ends with compact structures and fused head steel wires at the two ends of the fused steel wire rope until the two tapered rope ends are pulled apart.

2. The method of claim 1, wherein the method comprises the steps of: left side fuse-element subassembly and right fuse-element subassembly set up the left and right sides at the frame case, left side fuse-element subassembly includes left seat frame, left conducting seat, left anchor clamps body and pneumatic cylinder, right side fuse-element subassembly includes electric rotary mechanism, right seat frame, right conducting seat and right anchor clamps body, left side anchor clamps body and right anchor clamps body head all are equipped with centre gripping wire rope's fixture mechanism, left side seat frame, right seat frame are fixed on the frame case, be equipped with left conducting seat on the seat frame of a left side, be equipped with right conducting seat on the seat frame of the right side, the sliding fit has left anchor clamps body in the conducting seat of a left side, and left anchor clamps body passes through pneumatic cylinder axial displacement, right side conducting seat internal rotation is equipped with right anchor clamps body, right side anchor clamps body is rotated by the electric rotary mechanism drive.

3. The method of claim 2, wherein the method comprises the steps of: the tail of the left clamp body is connected with the center of the tensile axial connecting plate, the cylinder bodies of the two hydraulic cylinders are fixed on the front side and the rear side of the left seat frame, and the piston rods of the two hydraulic cylinders are connected with the front end and the rear end of the tensile axial connecting plate.

4. The method of claim 1, wherein the method comprises the steps of: anchor clamps mechanism includes preceding anchor clamps seat, back anchor clamps seat, two-way screw rod, fixed plate and two-way screw rod fixation nut, is equipped with the fixed plate in the one end that corresponds the front and back end in the specific anchor clamps chamber of anchor clamps, two-way screw rod stretches into the anchor clamps chamber from the fixed plate, two-way screw rod fixation nut fixes the play axle head at two-way screw rod, two parts screw thread of two-way screw rod is turned around to the opposite direction, anchor clamps seat, back anchor clamps seat before two sections screw threads of two-way screw rod spiro union separately, be equipped with first electrode in the preceding anchor clamps seat, be equipped with the second electrode in the back anchor clamps seat.

5. The method of claim 4, wherein the method comprises the steps of: the bidirectional screw is further provided with an axial plane bearing, the axial plane bearing is arranged on the polished rod portion of the bidirectional screw and close to the fixing plate, and the axial plane bearing and the bidirectional screw fixing nut are distributed on the inner side and the outer side of the fixing plate.

6. The method of claim 1, wherein the method comprises the steps of: electric rotary mechanism includes gear motor, worm axle, worm wheel carousel and drive disk assembly mechanical seat, gear motor's play axle head passes through the coupling joint worm axle, worm axle and worm wheel carousel mesh, the worm axle rotates and sets up in drive disk assembly mechanical seat, the specific tail end of right side clamp is passed through the screw and is connected with the center of worm wheel carousel.

7. The method of claim 6, wherein the method comprises the steps of: and a protective cover shell is arranged outside the worm wheel large turntable.

8. The method of claim 1, wherein the method comprises the steps of: and a waste oil pan is arranged between the left melting head assembly and the right melting head assembly and is also fixed on the frame box.

9. The method of claim 1, wherein the method comprises the steps of: after a clamp mechanism in a clamp cavity of the left clamp body is assembled, a clamp body cover plate is arranged on the right side of the clamp cavity.

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