CN113634619B - A online concentrator for steel wire production - Google Patents

Abstract

The invention relates to the technical field of steel wire rope production equipment, in particular to an online concentrator for steel wire production. The on-line concentrator for steel wire production comprises a slide rail, a sliding plate and a wire collecting device, wherein the slide rail is fixedly arranged on a truss and is provided with the sliding plate in sliding connection; the support frame is fixedly embedded in the middle of the slide rail, and a rotating motor is installed on the support frame; and the rotating shaft parts are provided with two parts which are respectively positioned at two sides of the upper surface of the sliding plate, and each rotating shaft part is provided with a steel wire line concentration part for online line concentration. According to the online concentrator for steel wire production, the two groups of rotating shafts which are arranged in parallel are arranged on the sliding plate, the two groups of steel wire line concentration parts are subsequently placed on the rotating shafts respectively, the corresponding spool rotates and performs online line concentration, and the rotating shaft on the other side slides to the lower part of the adapter by using the adjusting assembly, so that the time for replacing the spool during steel wire production can be greatly saved, and the working efficiency is improved.

Description

A online concentrator for steel wire production

Technical Field

The invention relates to the technical field of steel wire rope production equipment, in particular to an online concentrator for steel wire production.

Background

In the production process of the steel wire rope, the steel wire rope needs to be continuously wound and unwound, the winding process is to wind the processed steel wire rope on the spool, and due to the structural limitation of the spool or the requirement of subsequent processes, after a certain amount of steel wires are wound outside the spool, the spool needs to be replaced, and then the winding operation can be continuously performed.

The spool needs a certain time for replacing, so equipment in the prior process needs to be stopped for waiting, the production efficiency is influenced, and the problem that the steel wire is locally damaged by pulling and stretched due to overlarge local internal stress is easily caused when the steel wire is subjected to wire concentration.

Therefore, there is a need to provide a new on-line concentrator for steel wire production to solve the above technical problems.

Disclosure of Invention

In order to solve the technical problem, the invention provides an online concentrator for steel wire production.

The invention provides an online concentrator for steel wire production, which comprises:

the sliding rail is fixedly arranged on the truss and provided with a sliding plate in sliding connection, and the sliding plate slides back and forth along the sliding rail through the adjusting assembly;

the support frame is fixedly embedded in the middle of the slide rail, a rotating motor is arranged on the support frame, and an adapter is arranged on the rotating motor;

the hub further comprises:

the rotating shaft parts are provided with two rotating shaft parts which are respectively positioned on two sides of the upper surface of the sliding plate, and each rotating shaft part is provided with a steel wire line concentration part for online line concentration;

one end of the coupler is arranged on the adapter, and the other end of the coupler is connected with the rotating shaft component below the adapter;

the middle part of the sliding rail is provided with a wire adjusting part which is distributed opposite to the supporting frame, the wire adjusting part comprises an embedded plate, the embedded plate is fixedly embedded in the middle part of the sliding rail, a wire stabilizing assembly is arranged on the inner side of the embedded plate, an installation cavity is formed in the embedded plate, a reciprocating lead screw which is connected in a rotating mode and a limiting rod which is fixedly installed are installed on the installation cavity, a threaded connection block which is connected in a threaded mode is sleeved on the reciprocating lead screw, one side of the threaded connection block is sleeved on the limiting rod and is connected with the limiting rod in a sliding mode, a plurality of wire pressing devices are installed on the threaded connection block, and a stepping motor which is used for driving the reciprocating lead screw to rotate is fixedly embedded in the embedded plate;

the wire pressing device comprises a wire penetrating cylinder, the wire penetrating cylinder is fixedly embedded on the threaded connecting block and penetrates through the threaded connecting block, and a fastening screw in threaded connection is mounted on the cylinder wall on one side of the wire penetrating cylinder;

the wire stabilizing assembly comprises rotating frames, the two rotating frames are fixedly arranged on the side wall of the embedded plate, each rotating frame is provided with a rotating side plate which is connected in a rotating mode, a wire guide roller which is connected in a rotating mode is erected between the two rotating side plates, and the rotating side plates are close to the rotating connecting ends and are elastically connected with the inner wall of the embedded plate through tension springs.

Preferably, the rotating shaft part comprises a rotating shaft, one end of the rotating shaft is rotatably installed on the upper surface of the sliding plate through a bearing, the top of the rotating shaft is provided with an inserting groove, and two side walls of the rotating shaft are provided with sliding grooves.

Preferably, the steel wire line concentration part comprises a spool, convex edges are fixedly embedded on two sides of the inner cylinder wall of the spool, and a rotating ring is fixedly embedded on a lower wheel disc of the spool.

Preferably, the spool is sleeved on the rotating shaft, the convex ribs in the spool are inserted into the insertion grooves formed in the outer wall of the rotating shaft, and the rotating shaft is provided with the amplitude reducing assembly for reducing the amplitude of the spool.

Preferably, the amplitude reduction assembly comprises two rotating discs, the two rotating discs are elastically connected through a spring, an annular groove is formed in the top rotating disc, the rotating discs and the spring are sleeved on the rotating shaft, a rotating ring of the spool is inserted into the annular groove formed in the top rotating disc and is rotatably connected with the annular groove, and the rotating disc at the bottom is abutted to the sliding plate.

Preferably, the coupler includes the bull stick, the both ends of bull stick all are fixed the gomphosis and have the flange, the flange at bull stick top is inserted and is established and pass side opening fixed connection through the screw in the recess that the adapter was seted up, just the flange of bull stick bottom is inserted and is established and insert the groove and pass side opening fixed connection through the screw of establishing to what the axis of rotation top was seted up, the bottom fixed mounting of bull stick has the pressure to close the ring, just the pressure closes the ring and offsets with the last rim plate that corresponds the I-shaped wheel.

Preferably, the adjusting assembly comprises a gear row and a driving motor, the gear row is fixedly embedded on the rear end face of the sliding plate, the driving motor is fixedly embedded on the sliding rail through a rack, a rotating gear is fixedly mounted at the output end of the driving motor, and the driving motor is meshed with the gear row and connected with the gear row.

Compared with the related art, the online concentrator for steel wire production provided by the invention has the following beneficial effects:

1. according to the invention, two groups of rotating shafts which are arranged in parallel are arranged on the sliding plate, two groups of steel wire line concentration parts are subsequently respectively placed on the rotating shafts, the corresponding I-shaped wheels rotate and perform online line concentration, and then the rotating shaft on the other side slides to the lower part of the adapter by utilizing the adjusting assembly, so that the time for replacing the I-shaped wheels can be greatly saved during steel wire production, and the working efficiency is improved;

2. the amplitude reducing assembly can reduce the amplitude generated when the spool rotates along with the rotating shaft, and can enable one end of the spool to slide along the rotating shaft under the action of the elastic force of the spring after the spool is completely wired and the coupler is taken down, so that workers can take down the wired spool conveniently;

3. according to the invention, after the rotating motor is started, the steel wire starts to be subjected to wire collecting treatment, and meanwhile, the stepping motor is started to drive the threaded connecting block to slide up and down along the reciprocating screw rod in a reciprocating manner, so that when the steel wire is wound by the spool, the steel wire can be uniformly wound on the spool, the attractiveness is improved, and the problem of poor wire collecting effect caused by excessive winding of local steel wire on the spool is also avoided.

Drawings

FIG. 1 is a schematic structural diagram of an on-line concentrator for steel wire production according to one embodiment of the present invention;

FIG. 2 is a second schematic structural view of a preferred embodiment of the on-line concentrator for steel wire production according to the present invention;

FIG. 3 is a schematic structural view of the spindle unit shown in FIG. 1;

FIG. 4 is a schematic structural view of the wire concentrating part shown in FIG. 1;

FIG. 5 is a schematic structural view of the reset assembly shown in FIG. 1;

fig. 6 is a schematic view showing a connection structure of the spindle unit and the coupling shown in fig. 1;

FIG. 7 is a schematic structural view of the wire adjusting member shown in FIG. 1;

fig. 8 is a schematic structural view of the wire presser shown in fig. 7;

fig. 9 is a schematic structural diagram of the wire stabilizing assembly shown in fig. 7.

Reference numbers in the figures: 1. a slide rail; 2. a sliding plate; 3. an adjustment assembly; 31. a tooth row; 32. a drive motor; 33. a rotating gear; 4. a spindle member; 41. a rotating shaft; 42. a sliding groove; 43. inserting into a groove; 5. a wire concentration member; 51. a spool; 52. convex edges; 53. a rotating ring; 6. a amplitude reduction component; 61. rotating the disc; 62. a spring; 63. an annular groove; 7. a support frame; 8. rotating the motor; 9. a coupler; 91. a rotating rod; 92. a convex plate; 93. pressing and closing the ring; 9a, an adapter; 9b, a wire adjusting component; 9b1, fitting plate; 9b2, mounting cavity; 9b3, reciprocating lead screw; 9b4, a limiting rod; 9b5, a threaded connecting block; 9c, a wire pressing device; 9c1, threading cylinder; 9c2, fastening screws; 9d, a wire stabilizing assembly; 9d1, a turret; 9d2, rotating side plate; 9d3, wire guide roller; 9d4, tension spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

Referring to fig. 1 to 9, an embodiment of the present invention provides an on-line concentrator for steel wire production, including: the sliding rail 1, the supporting frame 7, the rotating shaft part 4 and the connector 9.

In the embodiment of the present invention, referring to fig. 1, 2, 3, 4 and 6, a sliding rail 1 is fixedly installed on a truss and is provided with a sliding plate 2 in sliding connection, a rotating shaft member 4 is provided with two sides respectively located on the upper surface of the sliding plate 2, the rotating shaft member 4 includes a rotating shaft 41, one end of the rotating shaft 41 is rotatably installed on the upper surface of the sliding plate 2 through a bearing, an insertion groove 43 is opened at the top of the rotating shaft 41, sliding grooves 42 are opened on both side walls of the rotating shaft 41, and each set of the rotating shaft members 4 is provided with a steel wire line collecting member 5 for collecting lines on line, the steel wire line collecting member 5 includes a spool 51, both sides of the inner cylinder wall of the spool 51 are fixedly embedded with convex ribs 52, and the lower wheel disc of the spool 51 is fixedly embedded with a rotating ring 53, and the spool 51 is sleeved on the rotating shaft 41, the convex edge 52 in the spool 51 is inserted into the insertion groove 43 formed in the outer wall of the rotating shaft 41;

support frame 7 fixed gomphosis is in 1 middle part of slide rail, just install rotation motor 8 on the support frame 7, it installs adapter 9a on the rotation motor 8, and 9 one ends of coupler are installed on the adapter 9a, and the other end is connected with pivot part 4 of adapter 9a below, coupler 9 includes bull stick 91, the both ends of bull stick 91 all are fixed the gomphosis and have flange 92, the flange 92 at bull stick 91 top is inserted and is established and pass side opening fixed connection through the screw in the recess that offers to adapter 9a, just the flange 92 of bull stick 91 bottom inserts and establishes inserting groove 43 and passing side opening fixed connection through the screw that offers to axis of rotation 41 top, the bottom fixed mounting of bull stick 91 presses the ring 93, just it offsets with the last reel that corresponds I-shaped wheel 51 to press the ring 93.

It should be noted that: two parallel rotating shafts 41 are arranged on the sliding plate 2, two groups of steel wire line concentration parts 5 are subsequently respectively placed on the rotating shafts 41, the connector 9 is utilized to connect the adapter 9a with the rotating shaft 41 below the adapter 9a, specifically, a convex plate 92 at the top of a rotating rod 91 is inserted into a groove formed in the adapter 9a and penetrates through a side hole through a screw for fixed connection, a convex plate 92 at the bottom of the rotating rod 91 is inserted into an inserting groove 43 formed in the top of the rotating shaft 41 and penetrates through a side hole through a screw for fixed connection, and a pressing ring 93 is pressed on an upper wheel disc of a corresponding spool 51, so that the rotating shaft 41, the rotating rod 91 and the adapter 9a form an integrated rotating shaft structure, and when a rotating motor 8 is started, the corresponding spool 51 can be driven to rotate and perform online line concentration;

it should also be noted that: after the spool 51 finishes the wire collection, the screws on the two sides of the rotating rod 91 are dismounted, the rotating rod 91 is taken down, the rotating shaft 41 on the other side is made to slide below the adapter 9a by the adjusting component 3, the adapter 9a is fixedly connected with the corresponding rotating shaft 41 by the coupler 9, so that the spool 51 can be driven to rotate and perform the wire collection on line after the rotating motor 8 is started, the spool 51 with the wire collected on the other side is taken down and replaced by a new spool 51, and the process is repeated subsequently, so that the time for replacing the spool 51 during the steel wire production can be greatly saved, and the working efficiency is improved;

in the present embodiment: the sliding plate 2 slides back and forth along the sliding rail 1 through the adjusting component 3, and the adjusting component 3 comprises a gear row 31 and a driving motor 32, the gear row 31 is fixedly embedded on the rear end surface of the sliding plate 2, the driving motor 32 is fixedly embedded on the sliding rail 1 through a rack, the output end of the driving motor 32 is fixedly provided with a rotating gear 33, and the rotating gear 33 arranged on the driving motor 32 is meshed with the gear row 31.

It should be noted that: the driving motor 32 is turned on to perform intermittent reciprocating rotation, so as to drive the gear 33 to rotate in a reciprocating manner, and the gear 33 is meshed with the gear row 31, so that the sliding plate 2 can slide along the sliding rail 1, and the two sets of rotating shaft parts 4 on the sliding plate 2 can be connected with the adapter 9a in a reciprocating manner by the coupler 9.

In an embodiment of the present invention, referring to fig. 5, an amplitude reduction assembly 6 for reducing the amplitude of the spool 51 is mounted on the rotating shaft 41, and the amplitude reduction assembly 6 includes rotating discs 61, two of the rotating discs 61 are elastically connected by a spring 62, an annular groove 63 is formed on the rotating disc 61 at the top, the rotating discs 61 and the spring 62 are both sleeved on the rotating shaft 41, the rotating ring 53 of the spool 51 is inserted into the annular groove 63 formed on the rotating disc 61 at the top and is rotatably connected with the annular groove 63, and the rotating disc 61 at the bottom is abutted against the sliding plate 2.

It should be noted that: the amplitude reduction assembly 6 can reduce the amplitude generated when the spool 51 rotates along with the rotating shaft 41 on one hand, and on the other hand, after the spool 51 is completely wired and the coupler 9 is removed, one end of the spool 51 can slide along the rotating shaft 41 under the action of the elastic force of the spring 62, so that a worker can conveniently remove the wired spool 51;

in the present embodiment: because the rotating ring 53 of the spool 51 is inserted into the annular groove 63 formed in the top rotating disc 61 and is rotatably connected with the annular groove 63, the problem of torsional deformation of the spring 62 below the rotating disc 61 cannot be caused when the spool 51 rotates.

In the embodiment of the present invention, referring to fig. 7, 8 and 9, a wire adjusting component 9b distributed opposite to the support frame 7 is installed in the middle of the slide rail 1, the wire adjusting component 9b includes an engaging plate 9b1, the engaging plate 9b1 is fixedly engaged with the middle of the slide rail 1, a wire stabilizing assembly 9d is installed on the inner edge side of an engaging plate 9b1, an installation cavity 9b2 is opened on the engaging plate 9b1, a reciprocating lead screw 9b3 connected in a rotating manner and a fixed limiting rod 9b4 are installed on the installation cavity 9b2, a stepping motor for driving the reciprocating lead screw 9b3 to rotate is fixedly engaged in the engaging plate 9b1, a threaded connection block 9b5 connected with a thread is sleeved on the reciprocating lead screw 9b3, one side of the threaded connection block 9b5 is sleeved on a limiting rod 9b4 and connected with the limiting rod 9b4 in a sliding manner, a plurality of wire pressing devices are installed on the threaded connection block 5, the wire pressing device 9c comprises a wire threading cylinder 9c1, the wire threading cylinder 9c1 is fixedly embedded on the threaded connecting block 9b5 and penetrates through the threaded connecting block 9b5, a fastening screw 9c2 in threaded connection is mounted on the cylinder wall on one side of the wire threading cylinder 9c1, the wire stabilizing assembly 9d comprises rotating frames 9d1, two groups of rotating frames 9d1 are fixedly mounted on the side wall of the embedded plate 9b1, each rotating frame 9d1 is provided with a rotating side plate 9d2 in rotating connection, a wire guiding roller 9d3 in rotating connection is erected between the two rotating side plates 9d2, and the rotating side plate 9d2 is close to the rotating connecting end and is elastically connected with the inner wall of the embedded plate 9b1 through a tension spring 9d 4.

It should be noted that: when the wire is collected, the steel wire penetrates through the wire penetrating cylinder 9c1 and then winds on the spool 51 corresponding to the rotating motor 8 after passing through the wire guiding roller 9d3, the wire collecting treatment is started after the rotating motor 8 is started, and meanwhile, the stepping motor is started to drive the threaded connecting block 9b5 to slide up and down along the reciprocating lead screw 9b3 in a reciprocating manner, so that when the spool 51 winds the steel wire, the steel wire can be uniformly wound on the spool 51, the attractiveness is improved, and the problem that the wire collecting effect is poor due to excessive winding of local steel wires on the spool 51 is solved;

it should also be noted that: the arranged wire guide roller 9d3 plays a role in guiding the steel wire on one hand, and on the other hand, when the steel wire is subjected to excessive transient internal stress, the rotating side plates 9d2 on the two sides of the wire guide roller 9d3 are pressed to compress the tension spring 9d4, so that the tension force applied to the steel wire can be reduced to avoid the steel wire from being snapped;

it is worth noting that: when the spool 51 is replaced, the fastening screw 9c2 is rotated to press the fastening screw 9c2 against the passing steel wire, the steel wire between the spool 51 and the wire guide roller 9d3 is cut off, the new spool 51 is slid to the wire collecting position, the steel wire is wound around the spool 51, and the fastening screw 9c2 is unscrewed to collect the steel wire.

The working principle of the on-line concentrator for steel wire production provided by the invention is as follows:

when the wire is collected, the steel wire penetrates through the wire penetrating cylinder 9c1 and then winds on the spool 51 corresponding to the rotating motor 8 after passing through the wire guiding roller 9d3, the wire collecting treatment is started after the rotating motor 8 is started, and meanwhile, the stepping motor is started to drive the threaded connecting block 9b5 to slide up and down along the reciprocating lead screw 9b3 in a reciprocating manner, so that when the spool 51 winds the steel wire, the steel wire can be uniformly wound on the spool 51, the attractiveness is improved, and the problem that the wire collecting effect is poor due to excessive winding of local steel wires on the spool 51 is solved;

the arranged wire guide roller 9d3 plays a role in guiding the steel wire on one hand, and on the other hand, when the steel wire is subjected to excessive transient internal stress, the rotating side plates 9d2 on the two sides of the wire guide roller 9d3 are pressed to compress the tension spring 9d4, so that the tension force applied to the steel wire can be reduced to avoid the steel wire from being snapped;

two groups of parallel rotating shafts 41 are arranged on the sliding plate 2, then two groups of steel wire line concentration parts 5 are respectively placed on the rotating shafts 41, the connector 9 is utilized to connect the adapter 9a with the rotating shaft 41 below the adapter 9a, specifically, a convex plate 92 at the top of a rotating rod 91 is inserted into a groove arranged on the adapter 9a and passes through a side hole through a screw to be fixedly connected, a convex plate 92 at the bottom of the rotating rod 91 is inserted into an inserting groove 43 arranged at the top of the rotating shaft 41 and passes through a side hole through a screw to be fixedly connected, and a pressing ring 93 is pressed on an upper wheel disc of a corresponding spool 51, so that the rotating shaft 41, the rotating rod 91 and the adapter 9a form an integrated rotating shaft structure, thereby when the rotating motor 8 is started, the corresponding spool 51 can be driven to rotate and perform online line concentration,

after the spool 51 finishes the wire collection, the screws on the two sides of the rotating rod 91 are removed, the rotating rod 91 is removed, the adjusting assembly 3 is subsequently utilized to enable the rotating shaft 41 on the other side to slide below the adapter 9a, specifically, the driving motor 32 is started to perform intermittent reciprocating rotation, so that the gear 33 is driven to rotate in a reciprocating manner, the gear 33 is meshed with the gear row 31, so that the sliding plate 2 can slide along the sliding rail 1, two groups of rotating shaft components 4 on the sliding plate 2 can be connected with the adapter 9a in a reciprocating manner through the coupler 9, the adapter 9a is fixedly connected with the corresponding rotating shaft 41 through the coupler 9, so that the spool 51 can be driven to rotate and perform the wire collection on line after the rotating motor 8 is started, at the moment, the spool 51 with the wire collected on the other side is removed and replaced by a new spool 51, and the procedures are subsequently repeated, when the spool 51 with the wire collected is replaced, the fastening screw 9c2 is rotated, the fastening screw 9c2 compresses the passing steel wire, the steel wire between the spool 51 with the wire collected and the wire guide roller 9d3 is cut off, the new spool 51 slides to the wire collecting position, the steel wire is wound on the spool 51, and the fastening screw 9c2 is loosened and collected;

the amplitude reduction assembly 6 arranged on the rotating shaft 41 can reduce the amplitude generated when the spool 51 rotates along with the rotating shaft 41, and on the other hand, after the spool 51 is completely wired and the coupler 9 is removed, one end of the spool 51 can slide along the rotating shaft 41 under the action of the elastic force of the spring 62, so that a worker can conveniently remove the wired spool 51, and the rotating ring 53 of the spool 51 is inserted into the annular groove 63 formed in the top rotating disc 61 and is rotatably connected with the annular groove 63, so that the problem that the spring 62 below the rotating disc 61 is driven to be twisted and deformed when the spool 51 rotates is solved.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (7)

1. An in-line concentrator for steel wire production comprising:

the sliding rail (1) is fixedly arranged on the truss and provided with a sliding plate (2) in sliding connection, and the sliding plate (2) slides back and forth along the sliding rail (1) through an adjusting component (3);

the support frame (7) is fixedly embedded in the middle of the slide rail (1), a rotating motor (8) is installed on the support frame (7), and an adapter (9 a) is installed on the rotating motor (8);

wherein said hub further comprises:

the rotating shaft parts (4) are provided with two groups and are respectively positioned on two sides of the upper surface of the sliding plate (2), and a steel wire line concentration part (5) for online line concentration is arranged on each group of the rotating shaft parts (4);

a coupler (9) with one end mounted on the adapter (9 a) and the other end connected with a rotating shaft component (4) below the adapter (9 a);

the middle part of the sliding rail (1) is provided with a wire adjusting component (9 b) which is distributed relative to the supporting frame (7), the wire adjusting component (9 b) comprises a mosaic plate (9 b 1), the mosaic plate (9 b 1) is fixedly embedded in the middle of the sliding rail (1), a wire stabilizing component (9 d) is arranged on the inner side of the mosaic plate (9 b 1), a mounting cavity (9 b 2) is formed in the mosaic plate (9 b 1), a reciprocating lead screw (9 b 3) and a fixed mounting limiting rod (9 b 4) are arranged in the mounting cavity (9 b 2) in a rotating connection mode, a threaded connection block (9 b 5) in threaded connection is sleeved on the reciprocating lead screw (9 b 3), one side of the threaded connection block (9 b 5) is sleeved on the limiting rod (9 b 4) and is in sliding connection with the limiting rod (9 b 4), and a plurality of wire pressing devices (9 c) are arranged on the threaded connection block (9 b 5), a stepping motor for driving the reciprocating lead screw (9 b 3) to rotate is fixedly embedded in the embedding plate (9 b 1);

the wire pressing device (9 c) comprises a wire threading cylinder (9 c 1), the wire threading cylinder (9 c 1) is fixedly embedded on the threaded connecting block (9 b 5) and penetrates through the threaded connecting block (9 b 5), and a fastening screw (9 c 2) in threaded connection is mounted on the cylinder wall on one side of the wire threading cylinder (9 c 1);

steady line subassembly (9 d) includes rotating turret (9 d 1), two rotating turret (9 d 1) fixed mounting is on the lateral wall of gomphosis board (9 b 1), and each all install rotation curb plate (9 d 2) of rotation connection on rotating turret (9 d 1), two it has wire roller (9 d 3) of rotation connection to erect between rotation curb plate (9 d 2), it passes through the inner wall elastic connection of extension spring (9 d 4) and gomphosis board (9 b 1) to rotate curb plate (9 d 2) and be close to the rotation link.

2. The on-line concentrator for steel wire production according to claim 1, wherein the rotating shaft member (4) comprises a rotating shaft (41), one end of the rotating shaft (41) is rotatably mounted on the upper surface of the sliding plate (2) through a bearing, an insertion groove (43) is opened at the top of the rotating shaft (41), and sliding grooves (42) are opened on both side walls of the rotating shaft (41).

3. The on-line concentrator for steel wire production according to claim 2, wherein the steel wire collecting component (5) comprises a spool (51), the two sides of the inner cylinder wall of the spool (51) are fixedly embedded with convex ribs (52), and the lower wheel disc of the spool (51) is fixedly embedded with a rotating ring (53).

4. The on-line concentrator for steel wire production according to claim 3, wherein the spool (51) is sleeved on the rotating shaft (41), the protruding rib (52) in the spool (51) is inserted into the insertion groove (43) formed in the outer wall of the rotating shaft (41), and the rotating shaft (41) is provided with the amplitude reducing component (6) for reducing the amplitude of the spool (51).

5. The on-line concentrator for steel wire production according to claim 4, wherein the amplitude reducing assembly (6) comprises two rotating discs (61), the two rotating discs (61) are elastically connected through a spring (62), an annular groove (63) is formed in the top rotating disc (61), the rotating discs (61) and the spring (62) are sleeved on the rotating shaft (41), the rotating ring (53) of the spool (51) is inserted into the annular groove (63) formed in the top rotating disc (61) and is rotatably connected with the annular groove (63), and the bottom rotating disc (61) abuts against the sliding plate (2).

6. The on-line concentrator for steel wire production according to claim 3, wherein the coupler (9) comprises a rotating rod (91), the two ends of the rotating rod (91) are fixedly embedded with convex plates (92), the convex plate (92) at the top of the rotating rod (91) is inserted into a groove formed in the adapter (9 a) and passes through the side hole fixed connection through a screw, the convex plate (92) at the bottom of the rotating rod (91) is inserted into an insertion groove (43) formed in the top of the rotating shaft (41) and passes through the side hole fixed connection through a screw, a pressing ring (93) is fixedly installed at the bottom of the rotating rod (91), and the pressing ring (93) abuts against an upper wheel disc of a corresponding spool (51).

7. The on-line concentrator for steel wire production according to claim 1, wherein the adjusting assembly (3) comprises a gear row (31) and a driving motor (32), the gear row (31) is fixedly embedded on the rear end face of the sliding plate (2), the driving motor (32) is fixedly embedded on the sliding rail (1) through a rack, a rotating gear (33) is fixedly installed at the output end of the driving motor (32), and the rotating gear (33) installed on the driving motor (32) is meshed with the gear row (31).

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