CN113863039A

CN113863039A - Double-root double-head off-line embossing machine

Info

Publication number: CN113863039A
Application number: CN202111136002.XA
Authority: CN
Inventors: 喻洪江; 王正义
Original assignee: Chongqing Xiangruijie Automation Equipment Co ltd
Current assignee: Chongqing Xiangruijie Automation Equipment Co ltd
Priority date: 2021-09-27
Filing date: 2021-09-27
Publication date: 2021-12-31
Anticipated expiration: 2041-09-27
Also published as: CN113863039B

Abstract

The invention belongs to the field of steel wire rope production, and particularly relates to a double-end off-line embossing machine which comprises a cabinet provided with a wire cutting device, wherein a wire supply device is arranged on one side of the cabinet, a plurality of steel wire ropes are led out from the wire supply device and penetrate through the cabinet, a plurality of steel wire ropes are arranged side by side, an embossing mechanism A is arranged on one side of the cabinet, which is far away from the wire supply device, and is used for embossing one end, penetrating out of the cabinet, of each steel wire rope, a embossing mechanism B is arranged in the cabinet, a clamping assembly is arranged on the side face of the cabinet and is used for clamping and moving the cut steel wire rope to the embossing mechanism B, and the embossing mechanism B is used for embossing one end, cut off, of each steel wire rope, so that the double-end embossing machine has the beneficial effect of full-automatic embossing of two ends of each steel wire rope.

Description

Double-root double-head off-line embossing machine

Technical Field

The invention belongs to the field of steel wire rope production, and particularly relates to an improvement on a structure of a double-head off-line embossing machine.

Background

The steel wire rope embossing is that the steel wire rope end surface is extruded by an embossing machine, so that the area of the steel wire rope end surface is enlarged, and the connector is not easy to fall off in the subsequent process of the steel wire rope. When an existing steel wire rope is machined, an all-in-one machine with patterns cut off or an all-in-one machine with patterns fused is usually adopted, but the pattern making machine on the market at present can only make patterns on one end of the steel wire rope, then the steel wire rope with patterns on one end is fed again and the other end is made patterns, and the structure that the two ends of the steel wire rope cannot be made patterns simultaneously causes low production efficiency, and is not beneficial to mass production and full-automatic production of the steel wire rope.

Disclosure of Invention

The invention aims to provide a double-end off-line embossing machine capable of simultaneously embossing two ends of a steel wire rope, and in order to achieve the aim, the invention adopts the technical scheme that:

machine of spending is got off production to two double-end, including the rack that is provided with tangent line device, one side of rack is provided with supplies line equipment, and wire rope follows draw forth and pass on supplying line equipment the rack, wire rope is provided with a plurality of roots side by side, the rack is kept away from one side that supplies line equipment is provided with the mechanism A of spending flowers, it is used for spending flowers to beat the mechanism A of spending flowers wire rope wears out the one end of rack, be provided with the mechanism B of spending flowers in the rack, the rack side is provided with the centre gripping subassembly, the centre gripping subassembly is used for after the centre gripping cuts off wire rope just removes it beat on the mechanism B of spending flowers, it is used for spending flowers to beat the mechanism B of spending flowers wire rope is by the one end of cutting off.

Further, it includes the mounting panel to beat colored mechanism A, one side of mounting panel is provided with a plurality of pan feeding holes, the mounting panel slidable ground is provided with a plurality of slide bars, and is a plurality of the slide bar is with a plurality of pan feeding hole one-to-one and with a plurality of wire rope is concentric, and is a plurality of the slide bar is kept away from the one end in pan feeding hole is connected with thrust unit, thrust unit is used for promoting the slide bar punching press wire rope passes the one end in pan feeding hole.

Further, a fixed block is fixedly arranged on the mounting plate, and the feeding hole is formed in the fixed block;

be provided with a plurality of hold-down mechanism in the fixed block, hold-down mechanism includes that two slidable ground connect the pressure head of fixed block, two be provided with one between the pressure head wire rope, two the pressure head is connected with closing device, closing device is used for promoting two the pressure head compresses tightly wire rope.

Further, closing device is including pushing down the cylinder and the side pushes away the cylinder, the cylinder setting is between two adjacent hold-down mechanism down, and its output is provided with first wedge, first wedge is used for promoting the pressure head of its both sides and compresses tightly wire rope, the side pushes away the cylinder setting and is in hold-down mechanism keeps away from one side of first wedge, and its output is provided with the second wedge, the second wedge is used for promoting hold-down mechanism is last to be kept away from the pressure head of first wedge compresses tightly wire rope.

Further, thrust unit is including setting up the cylinder of spending of mounting panel bottom, it is connected with the bottom of a connecting rod to beat the cylinder of spending, the connecting rod upper end is rotationally connected the mounting panel, its top is kept away from with the slide bar the one end butt in pan feeding hole, it is used for the drive to beat the cylinder of spending the connecting rod rotates, and then makes the connecting rod promotes the slide bar, it is connected with a plurality of to beat the cylinder of spending the connecting rod.

Furthermore, the structure of the pattern making mechanism B is the same as that of the pattern making mechanism A, and the pattern making mechanism B and the pattern making mechanism A are arranged oppositely.

Furthermore, the clamping assembly comprises a finger cylinder, two output ends of the finger cylinder are respectively provided with a chuck, the finger cylinder is arranged at the output end of a lifting cylinder, and the lifting cylinder is arranged on the side surface of the cabinet;

the input end of the flower beating mechanism B is arranged below the output end of the thread cutting device, the lifting cylinder is used for lifting the finger cylinder, so that the finger cylinder clamps a cut steel wire rope to the input end of the flower beating mechanism B, the clamping assembly is provided with a plurality of parts, the flower beating mechanism B is slidably arranged in the cabinet, a telescopic cylinder used for pushing the flower beating mechanism B to slide is arranged in the cabinet, and the flower beating mechanism B is used for inputting the steel wire rope to the input end of the flower beating mechanism B when sliding.

Furthermore, one side of the machine cabinet, which is far away from the line supply equipment, is provided with a discharging platform, the pattern printing mechanism A is slidably arranged on the discharging platform, and the discharging platform is provided with a guide rail assembly used for driving the pattern printing mechanism A to slide.

Furthermore, a support frame is arranged between the cabinet and the line supply equipment, the steel wire rope is arranged on the support frame, and a stopping mechanism is arranged on the support frame;

the stopping mechanism comprises a fixed block arranged on the support frame, the fixed block is connected with a sliding block in a sliding manner, the sliding block is provided with a through hole for the steel wire rope to pass through, the sliding block is provided with a limiting cavity with a downward opening, a roller is arranged in the limiting cavity in a vertically sliding manner, and the top of the roller is abutted to the steel wire rope;

the up end of fixed block is provided with first rake, gyro wheel bottom butt first rake, works as wire rope drives the sliding block orientation when supplying line equipment to slide, the gyro wheel along first rake up-motion and extrusion wire rope.

The sliding block is arranged in the sliding block, and the sliding block is connected with the fixed block;

the fixing base is kept away from the one end detachably that supplies line equipment is connected with the regulation seat, it has the screw rod to adjust seat threaded connection, the cover is equipped with adjusting spring on the screw rod, adjusting spring with the sliding block butt, the sliding block bottom be provided with the second rake of first rake adaptation.

The invention has the following beneficial effects:

the invention uses two embossing mechanisms to emboss two ends of the cut steel wire rope on the same device, one end of the embossing mechanism A penetrating out of the cabinet embosses the steel wire rope, the other end of the embossing mechanism A is cut off, the end part of the steel wire rope is moved to the embossing mechanism B under the action of the clamping component to emboss two ends of the steel wire rope, then the clamping component clamps the steel wire rope without embossing to the embossing mechanism A again, the process is circulated, the device can be applied to an automatic production line of the steel wire rope, continuous and uninterrupted embossing of two ends of the steel wire rope is realized, the overall efficiency of the steel wire rope embossing process is improved, the production period is shortened, the device has the beneficial effects of full-automatic embossing two ends of the steel wire rope, the embossing mechanism A has the functions of clamping and sliding, so as to realize automatic feeding of the steel wire rope, in addition, the stopping mechanism can effectively weaken the impact force on the steel wire rope in the embossing process, the anti-return mechanism not only plays a role in stopping return, but also can prevent the steel wire rope from popping up the embossing mechanism by impact force when embossing.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a patterning mechanism A;

FIG. 3 is a schematic top view of the embossing mechanism A;

FIG. 4 is a schematic cross-sectional view of the embossing mechanism;

FIG. 5 is a schematic view showing the fitting relationship of slide bars;

FIG. 6 is a schematic view of the ram;

FIG. 7 is a schematic view of the interior of a cabinet;

FIG. 8 is an enlarged view taken at A in FIG. 7;

FIG. 9 is a schematic view of a wire feeding mechanism;

FIG. 10 is a schematic view of a clamping assembly;

FIG. 11 is a schematic view of a thread cutting apparatus;

FIG. 12 is a schematic cross-sectional view of a parking mechanism;

FIG. 13 is a schematic view of a sliding block fit relationship;

FIG. 14 is a schematic view of a wire supply apparatus;

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 14 in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. Unless otherwise specified, the technical means used in the examples are conventional means well known to those skilled in the art.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Machine of spending is got off production line to two double-end, including rack 1 that is provided with tangent line device 4, one side of rack 1 is provided with supplies line equipment 2, and wire rope 10 follows supply to draw forth on the line equipment 2 and pass rack 1, wire rope 10 is provided with a plurality of roots side by side, rack 1 keeps away from one side that supplies line equipment 2 is provided with the mechanism of spending A3 of spending, it is used for spending to beat the mechanism of spending A3 wire rope 10 wears out the one end of rack 1, be provided with the mechanism of spending B11 of spending in the

rack

1, 1 side of rack is provided with clamping component 5, clamping component 5 is used for the centre gripping to cut off after wire rope 10 just removes it to beat on the mechanism of spending B11, it is used for spending mechanism B11 of spending wire rope 10 is by the one end of cutting off.

As shown in fig. 1, a steel wire rope 10 is wound on a wire supply device 2, horizontally passes through a cabinet 1, and is clamped by a right-side embossing mechanism a3, and embossing is performed on the right end of the steel wire rope 10, after the steel wire rope 10 passes through the cabinet 1 for a certain length, a wire cutting device 4 cuts the steel wire rope 10, a clamping assembly 5 moves the cut steel wire rope 10 to a left-side embossing mechanism B11, and an embossing mechanism B11 performs embossing on the left end of the steel wire rope 10.

Specifically, two steel wire ropes 10 are arranged, and the two steel wire ropes 10 are cut off and patterned simultaneously during production.

Further, it constructs A3 to beat flowers includes mounting panel 301, one side of mounting panel 301 is provided with a plurality of pan feeding hole 307, mounting panel 301 slidable is provided with a plurality of slide bars 316, and is a plurality of slide bar 316 with a plurality of pan feeding hole 307 one-to-one and with a plurality of wire rope 10 is concentric, and is a plurality of the one end that slide bar 316 kept away from pan feeding hole 307 is connected with thrust unit, thrust unit is used for promoting slide bar 316 punching press wire rope 10 passes the one end of pan feeding hole 307.

As shown in fig. 2 and 3, the mounting plate 301 is horizontally disposed, a gap is disposed between the feeding hole 307 and the sliding rod 316, the steel cable 10 passing through the cabinet 1 extends into the gap from the feeding hole 307, specifically, two feeding holes 307 and two sliding rods 316 are disposed, the two sliding rods 316 and the two feeding holes 307 are respectively disposed concentrically, and are on the same horizontal axis with the two steel cables 10.

In addition, the end of the sliding rod 316 is provided with a punch 314, the punch 314 faces the feeding hole 307, and when the pushing device pushes the sliding rod 316, the punch 314 punches the end of the steel wire rope 10 to complete the embossing.

Further, a fixed block 308 is fixedly arranged on the mounting plate 301, and the feeding hole 307 is arranged on the fixed block 308;

a plurality of pressing mechanisms are arranged in the fixing block 308, each pressing mechanism comprises two pressing heads 309 which can be connected with the fixing block 308 in a sliding mode, one steel wire rope 10 is arranged between the two pressing heads 309, the two pressing heads 309 are connected with pressing devices, and the pressing devices are used for pushing the two pressing heads 309 to press the steel wire rope 10.

As shown in fig. 4, specifically, a sliding cavity is provided in the fixing block 308, the steel wire rope 10 passes through the sliding cavity through the feeding hole 307, two pressing mechanisms are provided in the sliding cavity, the two pressing mechanisms include four pressing heads 309 arranged side by side, the pressing heads 309 and the sliding cavity are in slidable fit, the four pressing heads 309 are arranged on two sides of two steel wire ropes 10 in pairs, and when the punch 314 presses the steel wire rope 10, the pressing heads 309 clamp the steel wire rope 10 tightly to prevent dislocation.

Further, the pressing device comprises a pressing cylinder 306 and a side pushing cylinder 313, the pressing cylinder 306 is arranged between two adjacent pressing mechanisms, the output end of the pressing cylinder is provided with a first wedge block 312, the first wedge block 312 is used for pushing the pressing heads 309 on two sides of the first wedge block to press the steel wire rope 10, the side pushing cylinder 313 is arranged on one side of the pressing mechanism far away from the first wedge block 312, the output end of the pressing mechanism is provided with a second wedge block 311, and the second wedge block 311 is used for pushing the pressing head 309 on the pressing mechanism far away from the first wedge block 312 to press the steel wire rope 10.

The downward-pressing air cylinders 306 are vertically arranged and installed on the fixing block 308, the output ends of the downward-pressing air cylinders are downward, the lateral-pushing air cylinders 313 are horizontally arranged and are arranged in two numbers and installed on two sides of the fixing block 308, openings for the first wedge-shaped blocks 312 to penetrate through are formed in the top of the fixing block 308, the lower ends of the first wedge-shaped blocks 312 are arranged in the sliding cavity and located between the two steel wire ropes 10, when the downward-pressing air cylinders 306 push the first wedge-shaped blocks 312 to move downward, the pressing heads 309 on two sides of the first wedge-shaped blocks 309 move towards the steel wire ropes 10, meanwhile, the lateral-pushing air cylinders 313 push the second wedge-shaped blocks 311, another pressing head 309 on the pressing mechanism moves towards the steel wire ropes 10, and the pressing heads 309 on two sides of the steel wire ropes 10 simultaneously press the steel wire ropes 10 to enable the steel wire ropes 10 to be kept relatively fixed.

In addition, as shown in fig. 6, the pressing mechanism further includes a first return spring 315, the first return spring 315 is disposed between the two pressing heads 309, the pressing heads 309 are provided with mounting holes matched with the first return spring 315, the first return spring 315 plays a role in returning, after the pattern is printed, the two pressing heads 309 are pushed to return, the pressing rollers 310 are disposed on the opposite sides of the two pressing heads 309, and the two pressing rollers 310 are respectively matched with the moving directions of the first wedge-shaped block 312 and the second wedge-shaped block 311 to reduce friction.

Further, the pushing device comprises a flower making cylinder 302 arranged at the bottom of the mounting plate 301, the flower making cylinder 302 is connected with the bottom of a connecting rod 304, the upper end of the connecting rod 304 is rotatably connected with the mounting plate 301, the top of the connecting rod 304 is abutted to one end, far away from the feeding hole 307, of the sliding rod 316, the flower making cylinder 302 is used for driving the connecting rod 304 to rotate, so that the connecting rod 304 pushes the sliding rod 316, and the flower making cylinder 302 is connected with a plurality of the connecting rods 304.

As shown in fig. 2, specifically, two connecting rods 304 are provided, the tops of the two connecting rods are abutted against the ends of two sliding rods 316 respectively, a mounting frame 303 is fixedly connected to the bottom of the mounting plate 301, the mounting frame 303 is rotatably connected to the output end of the knurling cylinder 302, the cylinder body of the knurling cylinder 302 is rotatably connected to the bottom of the connecting rod 304, and when the knurling cylinder 302 pushes, the lower end of the connecting rod 304 rotates along with the knurling cylinder 302, the upper end of the connecting rod 304 rotates, and the sliding rods 316 are pushed to move towards the steel wire rope 10.

In addition, as shown in fig. 5, the sliding rod 316 is slidably disposed in a sliding sleeve 305, the sliding sleeve 305 is fixedly disposed at the top of the mounting plate 301, a second return spring is sleeved on the sliding rod 316, a protruding portion is disposed at one end of the sliding rod 316, which is away from the sliding sleeve 305, two ends of the second return spring respectively act on the protruding portion and the sliding sleeve 305, and then after the flower-making process is completed, the second return spring pushes the sliding rod 316 to return, a sliding rod roller is further disposed at one end of the sliding rod 316, which is away from the sliding sleeve 305, and the sliding rod roller abuts against the top of the connecting rod 304 to reduce friction.

Furthermore, the embossing mechanism B11 and the embossing mechanism A3 have the same structure and are arranged oppositely.

Specifically, the ends of the feeding holes 307 of the embossing mechanism B11 and the embossing mechanism A3 are arranged oppositely.

Further, the clamping assembly 5 comprises a finger cylinder 501, two output ends of the finger cylinder 501 are provided with clamping heads 502, the finger cylinder 501 is mounted on an output end of a lifting cylinder 503, and the lifting cylinder 503 is mounted on a side surface of the cabinet 1;

the input end of the flower beating mechanism B11 is arranged below the output end of the thread cutting device 4, the lifting cylinder 503 is used for lifting the finger cylinder 501, so that the finger cylinder 501 clamps a cut steel wire rope 10 to the input end of the flower beating mechanism B11, the clamping assembly 5 is provided with a plurality of flower beating mechanisms B11 which can be slidably arranged in the machine cabinet 1, a telescopic cylinder 12 which is used for pushing the flower beating mechanism B11 to slide is arranged in the machine cabinet 1, and the flower beating mechanism B11 is used for sliding and inputting the steel wire rope 10 to the input end of the flower beating mechanism B11.

The body ground tool is as shown in fig. 10 and 11, two clamping assemblies 5 are symmetrically arranged on two sides of two steel wire ropes 10, the wire cutting device 4 cuts off the steel wire ropes 10 on the outer side surface of the cabinet body 1, before cutting, the lifting cylinder 503 pushes the finger cylinder 501 to ascend and drives the chucks 502 on two output ends of the lifting cylinder to clamp the steel wire ropes 10, then the wire cutting device 4 cuts off the steel wire ropes 10, the lifting cylinder 503 pushes the finger cylinder 501 downwards to make the steel wire ropes 10 concentric with the feeding holes 307 of the pattern forming mechanism B11, then the telescopic cylinder 12 pushes the pattern forming mechanism B11 to move towards the finger cylinder 501 to make the feeding holes 307 of the pattern forming mechanism B11 sleeve on the steel wire ropes 10, then the pressing head 309 of the pattern forming mechanism B11 clamps the steel wire ropes 10, and the pattern forming step same as the pattern forming mechanism A3 is performed.

In addition, the thread cutting device 4 may adopt a conventional device for cutting the steel wire rope 10 in the prior art, or may adopt a structure as shown in fig. 7 and 10, and includes a cutter 401, a connecting rod 402, a cutting cylinder 403 and a fixed mold 404, the fixed mold 404 is fixedly disposed at a side of the cabinet 1 away from the thread supplying device 2, and is provided with two mold holes for the steel wire rope to pass through, the two steel wire ropes 10 pass through the mold holes of the two fixed molds 404, the cutter 401 is slidably disposed at an outer side surface of the cabinet 1 through a sliding rail, the sliding direction of the cutter 401 is a vertical direction, the bottom of the cutter is tangent to an end surface of the fixed mold 404, the top of the cutter is rotatably connected with one end of the connecting rod 402, the cutter 401 is disposed between the fixed mold 404 and the finger cylinder 501, the other end of the connecting rod 402 is rotatably connected with an output end of the cutting cylinder 403, the connecting rod 402 is rotatably connected with the cabinet 1 and passes through the cabinet 1, the cutting cylinder 403 is disposed in the cabinet 1, when the output end of the wire rope is directed upward and the cutting cylinder 403 pushes the connecting rod 402 upward, the connecting rod 402 pushes the cutter 401 downward to cut the wire rope 10 passing through the fixed die 404.

Further, one side of the cabinet 1, which is far away from the line supplying device 2, is provided with a discharging table 13, the pattern printing mechanism A3 is slidably arranged on the discharging table 13, and the discharging table 13 is provided with a guide rail assembly for driving the pattern printing mechanism A3 to slide.

After the patterning of the patterning mechanism A3 and the patterning mechanism B11 is completed, the steel wire rope 10 falls on the blanking table 13, specifically, as shown in fig. 2, the rail assembly includes a driving motor 901 and a rack 902, the mounting plate 301 of the patterning mechanism A3 is slidably disposed on the blanking table 13 through the rail, the rack 902 is fixedly disposed on the blanking table 13, the driving motor 901 is mounted on the mounting plate 301, a rotating shaft of the driving motor is fixedly connected with a gear engaging with the rack 902, and when the driving motor 901 rotates, the gear and the rack 902 cooperate to enable the patterning mechanism A3 to horizontally slide, and in specific implementation, the patterning mechanism A3 clamps the steel wire rope 10 through a pressure head 309 of the patterning mechanism a, and then pulls and slides the steel wire rope 10 to fix the length.

In addition, a wire feeding mechanism is further arranged in the cabinet 1, the inside of the cabinet 1 is sequentially distributed with a connecting rod 402, a wire feeding mechanism and a patterning mechanism B11 from top to bottom, as shown in fig. 7, 8 and 9, the wire feeding mechanism comprises a wire feeding cylinder 801, a wire pressing cylinder 802, a wire pressing head 803, a wire feeding rack 804 and a horizontal rod 805, two ends of the horizontal rod 805 are fixedly connected with the inner wall of the cabinet 1, the wire feeding rack 804 is horizontally arranged, the wire feeding cylinder 804 is slidably arranged on the horizontal rod 805, the wire feeding cylinder 801 is arranged on the inner wall of the cabinet 1, the output end of the wire feeding cylinder is fixedly connected with the side surface of the wire feeding rack 804, the wire pressing cylinder 802 is arranged in the wire feeding rack 804, the output end of the wire pressing cylinder 802 is fixedly connected with the wire pressing head 803, the wire pressing cylinder 802 is arranged above two steel wires 10, the two steel wires 10 horizontally and sequentially pass through the wire feeding rack 804 and the fixed rack 404, when the wire pressing cylinder 802 presses the wire pressing head 803 downwards, then the wire feeding cylinder 801 pushes the wire feeding frame 804 to drive the steel wire rope 10 to slide, and after the steel wire rope 10 is cut off, the wire feeding cylinder 801 pushes the wire feeding frame 804 to move the end of the steel wire rope 10 towards the patterning mechanism A3, so that the end of the steel wire rope 10 penetrates out of the fixed mold 404 for a larger length, and the patterning mechanism A3 is convenient to close and clamp.

The working process of the invention is as follows:

a pattern making stage: the sliding rod 316 of the embossing mechanism A3 slides to make the punch 314 punch the steel wire rope 10 to finish embossing the right end parts of the two steel wire ropes 10, then the lower pressing cylinder 306 and the side pushing cylinder 313 of the embossing mechanism A3 act to make the pressure head 309 release the steel wire rope 10, the right end of the steel wire rope 10 drops on the blanking table 13, then the lifting cylinder 503 on the clamping component 5 on the left side acts to push the finger cylinder 501 upwards, the finger cylinder 501 drives the chuck 502 to clamp the left end of the steel wire rope 10, then the cutting cylinder 403 on the left side acts to push the cutter 401 to cut off the left end of the steel wire rope 10, then the lifting cylinder 503 acts to push the finger cylinder 501 downwards to make the left end of the steel wire rope 10 drop to be concentric with the feeding hole 307 of the embossing mechanism B11, then the telescopic cylinder 12 pushes the embossing mechanism B11 to move towards the finger cylinder 501 to make the feeding hole 307 sleeve the steel wire rope 10, and then the pressure head 309 of the embossing mechanism B11 clamps the steel wire rope 10, and the same pattern making step as the pattern making mechanism A3 is carried out, after the pattern making mechanism B11 finishes the pattern making, the pressure head 309 releases the steel wire rope 10, the telescopic cylinder 12 pushes the steel wire rope to slide towards the left for resetting, the steel wire rope 10 is cut off, and the steel wire rope 10 with the patterns made at the two ends falls on the blanking table 13.

After the pattern forming stage is completed, the wire feeding stage is started, the driving motor 901 drives the pattern forming mechanism A3 to slide towards the left side, then the wire pressing cylinder 802 acts to press the steel wire rope 10 tightly, the wire feeding cylinder 801 pushes the wire feeding frame 804 to drive the steel wire rope 10 to slide, the right end of the steel wire rope 10 penetrates through the fixed mold 404 and enters the feeding hole 307 of the pattern forming mechanism A3, then the wire pressing cylinder 802 loosens the steel wire rope 10, the wire feeding cylinder 801 resets, then the driving motor 901 drives the pattern forming mechanism A3 to slide towards the right side, the sliding is stopped after a certain length, then the cycle of the pattern forming stage-the wire feeding stage is repeated, and finally full-automatic pattern forming and blanking of the two ends of the steel wire rope 10 are formed.

In the whole process, the wire supplying device 2 continuously supplies the wire rope 10, which may be a conventional wire supplying device 2 in the prior art, or may adopt a structure as shown in fig. 14, which includes two wheel set mechanisms corresponding to two wire ropes 10, respectively, the wheel set mechanism includes a wire supplying motor 204, a reel 203, a lower wire distributing wheel 202 and an upper wire distributing wheel 201, the rotating shaft of the wire supplying motor 204 is fixedly connected with the reel 203, the lower wire distributing wheel 202 and the upper wire distributing wheel 201 are both rotatably arranged on a bracket, the bracket is fixedly connected with the side surface of the cabinet 1 and is positioned under the supporting frame 7, the upper wire distributing wheel 201 is arranged right above the lower wire distributing wheel 202, the upper wire distributing wheel 201 is provided with a plurality of annular grooves distributed side by side, the upper wire distributing wheel 201 and the lower wire distributing wheel 202 have the same structure, the wire ropes 10 are wound on the reel 203, one end of which extends out of the reel 203, and are wound around the annular grooves of the upper wire distributing wheel 201 and the lower wire distributing wheel 202 in a circle, and finally extends from the upper distribution wheel 201 and horizontally passes through the retaining mechanism 6 and the cabinet 1.

Further, a support frame 7 is arranged between the cabinet 1 and the wire supply equipment 2, the steel wire rope 10 is arranged on the support frame 7, and a stopping mechanism 6 is arranged on the support frame 7;

the stopping mechanism 6 comprises a fixed block 607 arranged on the support frame 7, the fixed block 607 is slidably connected with a sliding block 605, the sliding block 605 is provided with a through hole for the steel wire rope 10 to pass through, the sliding block 605 is provided with a limiting cavity with a downward opening, a roller 606 is arranged in the limiting cavity in a vertically sliding manner, and the top of the roller 606 is abutted to the steel wire rope 10;

the upper end face of the fixed block 607 is provided with a first inclined part, the bottom of the roller 606 abuts against the first inclined part, and when the steel wire rope 10 drives the sliding block 605 to slide towards the wire supply device 2, the roller 606 moves upwards along the first inclined part and extrudes the steel wire rope 10.

As shown in fig. 12 and 13, the limiting cavity is communicated with the through hole, both end surfaces of the roller 606 are provided with center shafts, both sides of the limiting cavity are provided with notches with downward openings, the center shafts on both sides of the roller 606 are arranged in the notches on both sides to play a role of the limiting roller 606, the first inclined part is an inclined plane, the left end of the first inclined part is high, the right end of the first inclined part is low, when the steel wire rope 10 normally moves towards the right, the first inclined part drives the sliding block 605 to slide towards the right through clearance fit between the first inclined part and the sliding block 605, and is abutted against the adjusting seat 604, when the steel wire rope 10 abnormally moves towards the left, the roller 606 ascends along the first inclined part to extrude and compress the steel wire rope 10, so as to limit the steel wire rope 10, so that the steel wire rope can only slide towards the right, and the beneficial effect of effective stopping is achieved.

Further, the device also comprises a fixed seat 601, wherein the fixed seat 601 is of a hollow structure, the fixed block 607 and the sliding block 605 are both arranged in the fixed seat 601, and the fixed seat 601 is connected with the fixed block 607 and the support frame 7;

one end, far away from the wire supply device 2, of the fixing seat 601 is detachably connected with an adjusting seat 604, the adjusting seat 604 is in threaded connection with a screw 602, an adjusting spring 603 is sleeved on the screw 602, the adjusting spring 603 is abutted to the sliding block 605, and a second inclined part matched with the first inclined part is arranged at the bottom of the sliding block 605.

The inclination angle of the second inclined part is the same as that of the first inclined part, a gap is formed between the second inclined part and the first inclined part, the side surface of the screw 602 is provided with a limiting bulge, the adjusting spring 603 is arranged between the limiting bulge and the sliding block 605, the tightness degree of the adjusting spring 603 can be adjusted by rotating the screw 602, then the compression degree between the roller 606 and the steel wire rope 10 is adjusted, and finally the effect of adjusting the stopping effect is achieved.

In addition, a plurality of spools are rotatably arranged on the support frame 7, the steel wire rope 10 penetrates through side grooves of the spools to play a role in limiting the motion direction of the steel wire rope 10, and the spools are arranged between the retaining mechanism 6 and the cabinet 1.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various changes, modifications, alterations, and substitutions which may be made by those skilled in the art without departing from the spirit of the present invention shall fall within the protection scope defined by the claims of the present invention.

Claims

1. Machine of spending is got off production to two double-end, including rack (1) that is provided with tangent line device (4), one side of rack (1) is provided with supplies line equipment (2), and wire rope (10) are followed supply to draw forth on line equipment (2) and pass rack (1), its characterized in that: wire rope (10) are provided with a plurality of roots side by side, cabinet (1) is kept away from one side that supplies line equipment (2) is provided with beats colored mechanism A (3), it is used for beating flower to beat colored mechanism A (3) wire rope (10) are worn out the one end of cabinet (1), be provided with in cabinet (1) and beat colored mechanism B (11), cabinet (1) side is provided with centre gripping subassembly (5), centre gripping subassembly (5) are used for the centre gripping to cut off after wire rope (10) just remove it beat colored mechanism B (11) on, beat colored mechanism B (11) and be used for beating flower wire rope (10) are by the one end of cutting off.

2. The double-head off-line embossing machine as claimed in claim 1, wherein: beat colored mechanism A (3) and include mounting panel (301), one side of mounting panel (301) is provided with a plurality of pan feeding hole (307), mounting panel (301) slidable is provided with a plurality of slide bars (316), and is a plurality of slide bar (316) and a plurality of pan feeding hole (307) one-to-one and with a plurality of wire rope (10) are concentric, and are a plurality of slide bar (316) are kept away from the one end of pan feeding hole (307) is connected with thrust unit, thrust unit is used for promoting slide bar (316) punching press wire rope (10) pass the one end of pan feeding hole (307).

3. The double-head off-line embossing machine as claimed in claim 2, wherein: a fixed block (308) is fixedly arranged on the mounting plate (301), and the feeding hole (307) is arranged on the fixed block (308);

the steel wire rope pressing device is characterized in that a plurality of pressing mechanisms are arranged in the fixing block (308), each pressing mechanism comprises two pressing heads (309) which can be connected with the fixing block (308) in a sliding mode, one steel wire rope (10) is arranged between the two pressing heads (309), the two pressing heads (309) are connected with pressing devices, and the pressing devices are used for pushing the two pressing heads (309) to press the steel wire rope (10).

4. The double-head off-line embossing machine as claimed in claim 3, wherein: the pressing device comprises a pressing cylinder (306) and a side pushing cylinder (313), the pressing cylinder (306) is arranged between two adjacent pressing mechanisms, an output end of the pressing cylinder is provided with a first wedge block (312), the first wedge block (312) is used for pushing pressing heads (309) on two sides of the first wedge block to press the steel wire rope (10), the side pushing cylinder (313) is arranged on one side of the pressing mechanism far away from the first wedge block (312), an output end of the pressing cylinder is provided with a second wedge block (311), and the second wedge block (311) is used for pushing the pressing mechanism far away from the pressing head (309) of the first wedge block (312) to press the steel wire rope (10).

5. The double-head off-line embossing machine as claimed in claim 2, wherein: thrust unit is including setting up make flower cylinder (302) of mounting panel (301) bottom, make flower cylinder (302) be connected with the bottom of a connecting rod (304), connecting rod (304) upper end is rotationally connected mounting panel (301), its top is kept away from with slide bar (316) the one end butt of pan feeding hole (307), make flower cylinder (302) be used for the drive connecting rod (304) rotate, and then make connecting rod (304) promote slide bar (316), it is connected with a plurality of to make flower cylinder (302) connecting rod (304).

6. The double-head off-line embossing machine as claimed in any one of claims 2 to 6, wherein: the pattern making mechanism B (11) and the pattern making mechanism A (3) have the same structure and are arranged oppositely.

7. The double-head off-line embossing machine as claimed in claim 1, wherein: the clamping assembly (5) comprises a finger cylinder (501), clamping heads (502) are arranged on two output ends of the finger cylinder (501), the finger cylinder (501) is installed on the output end of a lifting cylinder (503), and the lifting cylinder (503) is installed on the side face of the cabinet (1);

the input end of the flower beating mechanism B (11) is arranged below the output end of the thread cutting device (4), the lifting cylinder (503) is used for lifting the finger cylinder (501) so that the finger cylinder (501) can clamp a cut steel wire rope (10) to the input end of the flower beating mechanism B (11), the clamping component (5) is provided with a plurality of flower beating mechanisms B (11) which can be arranged in the cabinet (1) in a sliding mode, the cabinet (1) is internally provided with a telescopic cylinder (12) which is used for pushing the flower beating mechanisms B (11) to slide, and the flower beating mechanisms B (11) are used for sliding and inputting the steel wire rope (10) to the input end of the flower beating mechanisms B (11).

8. The double-head off-line embossing machine as claimed in claim 1, wherein: one side of the cabinet (1) far away from the line supply equipment (2) is provided with a discharging platform (13), the pattern printing mechanism A (3) can be slidably arranged on the discharging platform (13), and a guide rail assembly used for driving the pattern printing mechanism A (3) to slide is arranged on the discharging platform (13).

9. The double-head off-line embossing machine as claimed in claim 1, wherein: a supporting frame (7) is arranged between the cabinet (1) and the wire supply equipment (2), the steel wire rope (10) is arranged on the supporting frame (7), and a stopping mechanism (6) is arranged on the supporting frame (7);

the stopping mechanism (6) comprises a fixed block (607) arranged on the support frame (7), the fixed block (607) is slidably connected with a sliding block (605), the sliding block (605) is provided with a through hole for the steel wire rope (10) to pass through, the sliding block (605) is provided with a limiting cavity with a downward opening, a roller (606) is arranged in the limiting cavity in a vertically sliding manner, and the top of the roller (606) is abutted to the steel wire rope (10);

the upper end face of the fixed block (607) is provided with a first inclined part, the bottom of the roller (606) is abutted to the first inclined part, and when the steel wire rope (10) drives the sliding block (605) to slide towards the wire supply equipment (2), the roller (606) moves upwards along the first inclined part and extrudes the steel wire rope (10).

10. The double-head off-line embossing machine as claimed in claim 1, wherein: . The sliding support is characterized by further comprising a fixed seat (601), wherein the fixed seat (601) is of a hollow structure, the fixed block (607) and the sliding block (605) are arranged in the fixed seat (601), and the fixed block (607) and the support frame (7) are connected through the fixed seat (601);

one end, far away from the wire supply equipment (2), of the fixing seat (601) is detachably connected with an adjusting seat (604), the adjusting seat (604) is in threaded connection with a screw rod (602), an adjusting spring (603) is sleeved on the screw rod (602), the adjusting spring (603) is abutted to a sliding block (605), and a second inclined part matched with the first inclined part is arranged at the bottom of the sliding block (605).