CN112195307B

CN112195307B - Along with flowing silk feeding equipment

Info

Publication number: CN112195307B
Application number: CN202011274393.7A
Authority: CN
Inventors: 闫启栋; 王昱方; 马宗阳; 金成功
Original assignee: Yuzhou Henglilai New Material Co ltd
Current assignee: Yuzhou Henglilai New Material Co ltd
Priority date: 2020-11-15
Filing date: 2020-11-15
Publication date: 2023-06-06
Anticipated expiration: 2040-11-15
Also published as: CN112195307A

Abstract

The invention discloses a current-following wire feeding device, relates to the technical field of wire feeding devices, and aims to solve the problems that the length of an alloy core wire cannot be selected according to requirements in the existing wire feeding device for a holding furnace, and meanwhile, the storage environment of the alloy core wire is complex, dust is easy to generate, and static electricity is easy to generate after friction so as to influence the operation of the device. The box one side is provided with the horizontal pole, horizontal pole one side is provided with first movable rod, first movable rod and horizontal pole swing joint, first movable rod front end is provided with first splint, the wire inlet has been seted up to box one side, the passageway has been seted up in the box, the grooving has been seted up in the passageway, first recess and second recess have been seted up in the box, first recess and second recess are located the passageway upper and lower both ends, be provided with symmetrical wire feeding wheel in first recess and the second recess, all be provided with symmetrical output wheel in first recess and the second recess, four output wheel is located wire feeding wheel front end.

Description

Along with flowing silk feeding equipment

Technical Field

The invention relates to the technical field of yarn feeding equipment, in particular to stream-following yarn feeding equipment.

Background

The wire feeding equipment is used for injecting the alloy core wires into the depth of molten steel at proper speed and set quantity, so that the alloy core wires are uniformly dispersed, the purposes of deoxidizing, changing inclusion forms, fine adjusting components and the like are achieved, interference of human factors can be eliminated by carrying out desulfurization, spheroidization and inoculation treatment by using a wire feeding machine, thus the follow-up performance is good, the residual magnesium content of the treated molten iron can be kept in a small fluctuation range of the same order of magnitude, and the product quality is stable.

The wire feeding device plays an indispensable role in various smelting furnaces, wherein the wire feeding device is also used in a heat preservation furnace, the requirements for the component parts of each part are also improved in order to improve the working quality and the efficiency of the heat preservation furnace, the existing wire feeding device for the heat preservation furnace cannot select the length of an alloy core wire according to the needs, and meanwhile, the alloy core wire storage environment is complex and easy to generate dust, so that static electricity is easy to generate after friction to influence the operation of the device.

Disclosure of Invention

The invention aims to provide a current-following wire feeding device, which solves the problems that the wire feeding device for a holding furnace provided by the prior art cannot select the length of an alloy core wire according to requirements, and meanwhile, the alloy core wire is complex in storage environment and easy to generate dust, so that static electricity is easy to generate after friction to influence the operation of the device.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a follow and flow silk feeding equipment, includes the box, box one side is provided with the horizontal pole, horizontal pole one side is provided with first movable rod, first movable rod and horizontal pole swing joint, first movable rod front end is provided with first splint, the silk mouth has been seted up to box one side, the passageway has been seted up in the box, the grooving has been seted up in the passageway, first recess and second recess have been seted up in the box, first recess and second recess are located the passageway upper and lower both ends, be provided with symmetrical wire feeding wheel in first recess and the second recess, all be provided with symmetrical output wheel in first recess and the second recess, four output wheel is located wire feeding wheel front end, be provided with the wire drawing strip in the box, the wire drawing strip is located output wheel the place ahead, the opening has been seted up in the box, be provided with the ejector plate in the opening, the ejector plate is located wire drawing strip below, the opening front end is provided with the pipe.

Preferably, the front end of the first movable rod is provided with an inserting rod, a wire tray is arranged in the inserting rod, the rear end of the first movable rod is provided with a first sliding rod through a cross rod, a first sliding groove is formed in the first movable rod, the first sliding groove is in sliding connection with the first sliding rod, a first spring is arranged between the first sliding rod and the first sliding groove, and the first spring is fixedly connected with the first sliding groove.

Preferably, the upper end of the channel is provided with a cleaning sponge, the upper end of the cleaning sponge is provided with a magnet block, the magnet block is movably connected with the cleaning sponge, a first screw rod is arranged in the magnet block, the upper end of the first screw rod is provided with a first rotating motor, a second rotating motor is arranged in the box body, and the second rotating motor is positioned at the front end of the first rotating motor.

Preferably, the lower end of the second rotating motor is provided with a second screw rod, the lower end of the second screw rod is provided with a cutter, the cutter is in threaded connection with the second screw rod, the upper end of the channel is provided with a second sliding groove, the second sliding groove is in sliding connection with the cutter, and the cutter is positioned in front of the cleaning sponge.

Preferably, one side of the two wire feeding wheels is provided with a symmetrical third rotating motor, one side of the four output wheels is provided with a symmetrical fourth rotating motor, and symmetrical belts are arranged between the four output wheels.

Preferably, the two sides of the drawing strip are provided with symmetrical second clamping plates, a plurality of second sliding bars which are distributed at equal intervals are arranged between the two second clamping plates and the drawing strip, the two sides of the drawing strip are provided with a plurality of third grooves which are distributed at equal intervals, the three grooves are in sliding connection with the second sliding bars, the inner sides of the two second clamping plates are provided with iron absorbing layers, four first air cylinders which are distributed at equal intervals are arranged in the drawing strip, and the front ends of the four first air cylinders are fixedly connected with the second clamping plates through the drawing strip.

Preferably, the upper end of the yarn strip is provided with a sliding block, the sliding block is L-shaped, symmetrical fourth grooves are formed in the two second clamping plates, a third screw rod is arranged in the sliding block, and the lower end of the third screw rod is provided with a fifth rotating motor.

Preferably, the rear end of the ejection plate is provided with a second spring, a third chute is arranged in the box body, the third chute is in sliding connection with the ejection plate, the second spring is fixedly connected with the third chute, and a symmetrical fifth groove is arranged in the ejection plate.

Preferably, two clamping blocks are arranged in the fifth grooves, symmetrical first pull rods are arranged at the upper ends of the clamping blocks, symmetrical second pull rods are arranged at the rear ends of the first pull rods, symmetrical second air cylinders are arranged at the rear ends of the second pull rods, and symmetrical third air cylinders are arranged at the upper ends of the clamping blocks through the first pull rods.

Compared with the prior art, the invention has the beneficial effects that:

1. this follow and flow silk feeding equipment can be adjusted according to the diameter size of silk dish through the first movable rod that sets up in horizontal pole one side and the first splint in first spout through the first slide bar of one side, sets up clean sponge in the passageway upper end and is convenient for clean the spot on the alloy heart yearn surface of advancing the passageway, avoids the dust to lead to the fact the influence when the static that produces after the friction when using, and first rotating electrical machines drive first lead screw rotation when needs are clean, makes the magnet piece of clean sponge upper end lift about first lead screw, and the magnet piece that sets up can make clean sponge regularly take off and clean.

2. This along with flowing wire feeding equipment, can cut the alloy heart yearn according to the use needs equidistance through the cutter that sets up in clean sponge the place ahead, the cutter is along second spout downwardly cutting and coincide with the grooving under the drive of second lead screw when needs cutting.

3. According to the current-following wire feeding equipment, the second clamping plates are arranged on two sides of the trailing wire, so that the second clamping plates are positioned above the alloy core wire and are adsorbed and combined due to attractive force of the internally arranged iron absorbing layers, the alloy core wire is sent to the ejection plate below, and when the ejection is instantaneous, the first clamping plates are respectively ejected outwards through the first air cylinders arranged in the trailing wire to release the alloy core wire.

4. According to the current-following wire feeding equipment, the second spring arranged at the rear end of the ejection plate can be pulled backwards to form elasticity when the alloy core wire needs to be ejected, so that the ejection plate can be conveniently ejected against the alloy core wire, the fifth groove formed in the ejection plate can drive the ejection plate to slide backwards in the third sliding groove under the stretching tension of the clamping block and the first pull rod in the second cylinder, and when the ejection is needed, the clamping block can be moved out of the fifth groove through the third cylinder, so that the ejection plate can be pushed forwards under the elasticity of the second spring, and the ejection power is enough.

Drawings

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

FIG. 2 is a schematic view of A-A direction structure of the present invention;

FIG. 3 is a schematic view of the B-B direction structure of the present invention;

FIG. 4 is an enlarged schematic view of the structure of the C area of the present invention;

fig. 5 is a schematic view of the structure of the mop strip of the present invention.

In the figure: 1. a case; 2. a cross bar; 3. a first movable lever; 4. a first clamping plate; 5. a wire inlet; 6. a channel; 7. grooving; 8. a first groove; 9. a second groove; 10. wire feeding wheel; 11. an output wheel; 12. drawing the silk strip; 13. an opening; 14. an ejector plate; 15. a guidewire tube; 16. a rod; 17. a wire tray; 18. a first slide bar; 19. a first chute; 20. a first spring; 21. cleaning a sponge; 22. a suction block; 23. a first screw rod; 24. a first rotating electric machine; 25. a second rotating electric machine; 26. a second screw rod; 27. a cutter; 28. a second chute; 29. a third rotary electric machine; 30. a fourth rotating electrical machine; 31. a belt; 32. a second clamping plate; 33. a second slide bar; 34. a third groove; 35. a magnet layer; 36. a first cylinder; 37. a slide block; 38. a fourth groove; 39. a third screw rod; 40. a fifth rotating electric machine; 41. a second spring; 42. a third chute; 43. a fifth groove; 44. a clamping block; 45. a first pull rod; 46. a second pull rod; 47. a second cylinder; 48. and a third cylinder.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-5, an embodiment of the present invention is provided: the utility model provides a follow-up silk feeding equipment, including box 1, box 1 one side is provided with horizontal pole 2, horizontal pole 2 one side is provided with first movable rod 3, first movable rod 3 and horizontal pole 2 swing joint, first movable rod 3 front end is provided with first splint 4, wire inlet 5 has been seted up to box 1 one side, channel 6 has been seted up in the box 1, slot 7 has been seted up in the channel 6, first recess 8 and second recess 9 have been seted up in the box 1, first recess 8 and second recess 9 are located the upper and lower both ends of channel 6, be provided with symmetrical wire feed wheel 10 in first recess 8 and the second recess 9, all be provided with symmetrical output wheel 11 in first recess 8 and the second recess 9, four output wheels 11 are located wire feed wheel 10 front end, be provided with wire drawing 12 in the box 1, wire drawing 12 is located output wheel 11 the place ahead, opening 13 has been seted up in the box 1, be provided with ejection plate 14 in the opening 13, ejection plate 14 is located wire drawing 12 below, opening 13 front end is provided with pipe 15.

Further, the front end of the first movable rod 3 is provided with the inserted link 16, the inserted link 16 is internally provided with the wire disc 17, the rear end of the first movable rod 3 is provided with a first sliding rod 18 through the cross rod 2, the first movable rod 3 is internally provided with a first sliding groove 19, the first sliding groove 19 is in sliding connection with the first sliding rod 18, a first spring 20 is arranged between the first sliding rod 18 and the first sliding groove 19, the first spring 20 is fixedly connected with the first sliding groove 19, the wire disc 17 can be adjusted according to the diameter size of the wire disc through the first movable rod 3 and the first clamping plate 4 arranged on one side of the cross rod 2 in the first sliding groove 19, and the alloy core wire sent out from the channel 6 can be clamped and downwards to the front of the ejection plate 14 through the wire guide tube 15 through the wire guide tube 14.

Further, the upper end of the channel 6 is provided with the cleaning sponge 21, the upper end of the cleaning sponge 21 is provided with the magnet block 22, the magnet block 22 is movably connected with the cleaning sponge 21, a first screw rod 23 is arranged in the magnet block 22, the upper end of the first screw rod 23 is provided with a first rotating motor 24, a second rotating motor 25 is arranged in the box 1, the second rotating motor 25 is positioned at the front end of the first rotating motor 24, dirt on the surface of an alloy core wire fed into the channel 6 is conveniently wiped by arranging the cleaning sponge 21 at the upper end of the channel 6, the influence of static electricity generated after friction on the use is avoided, the first screw rod 23 is driven to rotate by the first rotating motor 24 when cleaning is needed, the magnet block 22 at the upper end of the cleaning sponge 21 is lifted up and down on the first screw rod 23, and the arranged magnet block 22 can enable the cleaning sponge 21 to be regularly taken down for cleaning.

Further, the second rotating electrical machines 25 lower extreme is provided with second lead screw 26, and second lead screw 26 lower extreme is provided with cutter 27, cutter 27 and second lead screw 26 threaded connection, and second spout 28 has been seted up to passageway 6 upper end, and second spout 28 and cutter 27 sliding connection, cutter 27 are located cleaning sponge 21 the place ahead, can cut alloy heart yearn according to the use needs equidistance through the cutter 27 that sets up in cleaning sponge 21, and cutter 27 is under the drive of second lead screw 26 down cutting and identical with grooving 7 along second spout 28 when needs cutting.

Further, the symmetrical third rotating motor 29 is arranged on one side of the two wire feeding wheels 10, the symmetrical fourth rotating motor 30 is arranged on one side of the four output wheels 11, the symmetrical belt 31 is arranged between the four output wheels 11, the alloy core wire can be driven to move forwards through the third rotating motor 29 arranged on one side of the wire feeding wheels 10, the fourth rotating motor 30 arranged on one side of the output wheels 11 can drive the alloy core wire to output forwards, and the belt 31 arranged between the output wheels 11 can play a role in power transmission.

Further, the two sides of the drawing wire 12 are provided with symmetrical second clamping plates 32, a plurality of second sliding rods 33 which are distributed at equal intervals are arranged between the two second clamping plates 32 and the drawing wire 12, a plurality of third grooves 34 which are distributed at equal intervals are formed in the two sides of the drawing wire 12, the plurality of third grooves 34 are in sliding connection with the second sliding rods 33, iron absorbing layers 35 are arranged on the inner sides of the two second clamping plates 32, four first air cylinders 36 which are distributed at equal intervals are arranged in the drawing wire 12, the front ends of the four first air cylinders 36 are fixedly connected with the second clamping plates 32 through the drawing wire 12, the second clamping plates 32 are arranged on the two sides of the drawing wire 12, the two second clamping plates 32 are adsorbed and combined due to the attraction of the iron absorbing layers 35 which are arranged inside, so that alloy wires are sent to the lower ejection plate 14 is provided with the alloy wires, and when the alloy wires are ejected, the alloy wires are respectively ejected outwards from the second clamping plates 32 through the first air cylinders 36 which are arranged in the drawing wire 12 at the moment.

Further, a sliding block 37 is arranged at the upper end of the filament drawing 12, the sliding block 37 is L-shaped, symmetrical fourth grooves 38 are formed in the two second clamping plates 32, a third screw rod 39 is arranged in the sliding block 37, a fifth rotating motor 40 is arranged at the lower end of the third screw rod 39, and the filament feeding operation is completed by lifting and lowering the sliding block 37 arranged at the upper end of the filament drawing 12 under the driving of the third screw rod 39.

Further, the second spring 41 is arranged at the rear end of the ejection plate 14, the third sliding groove 42 is formed in the box body 1, the third sliding groove 42 is in sliding connection with the ejection plate 14, the second spring 41 is fixedly connected with the third sliding groove 42, the ejection plate 14 is internally provided with the symmetrical fifth groove 43, and the second spring 41 arranged at the rear end of the ejection plate 14 can be pulled backwards to form elasticity when the alloy core wire needs to be ejected, so that the ejection plate 14 can be conveniently ejected against the alloy core wire.

Further, clamping blocks 44 are arranged in the two fifth grooves 43, symmetrical first pull rods 45 are arranged at the upper ends of the two clamping blocks 44, symmetrical second pull rods 46 are arranged at the rear ends of the two first pull rods 45, symmetrical second air cylinders 47 are arranged at the rear ends of the two second pull rods 46, symmetrical third air cylinders 48 are arranged at the upper ends of the two clamping blocks 44 through the first pull rods 45, the ejector plate 14 can be driven to slide in the third sliding grooves 42 backwards through the fifth grooves 43 formed in the ejector plate 14 under the stretching tension of the clamping blocks 44 and the first pull rods 45 and the stretching tension of the second air cylinders 47, and when ejection is needed, the clamping blocks 44 can be moved out of the fifth grooves 43 through the third air cylinders 48, so that the ejector plate 14 can be pushed forwards under the elasticity of the second springs 41.

Working principle: when in use, the wire tray 17 is placed into the inserting rod 16 and then the first clamping plate 4 is pulled to one side, the first clamping plate 4 can slide in the first sliding groove 19 through the first sliding rod 18 at one side of the first movable rod 3 and is adjusted according to the diameter of the wire tray 17, the first spring 20 can prevent the first clamping plate 4 from keeping clamping force, then the alloy core wire enters the channel 6 from the wire inlet 5, the cleaning sponge 21 is arranged at the upper end of the channel 6 and is lifted up and down on the first screw rod 23 through the upper end of the suction block 22, so as to clean stains on the surface of the alloy core wire fed into the channel 6 conveniently, the influence of dust on the use caused by static electricity generated after friction is avoided, the alloy core wire is fed between the two wire feeding wheels 10 and is fed forward to the output wheel 11, and then the alloy core wire is fed forward by the output wheel 11 for wire feeding operation, so that the use is more convenient for cutting according to needs, the cutter 27 arranged in front of the cleaning sponge 21 can cut the alloy core wires at equal intervals according to the use requirement, when the cutter 27 is driven by the second screw rod 26 to cut downwards along the second chute 28 and is matched with the cutting groove 7, when one section of the alloy core wires is conveyed to the front by the output wheel 11, the sliding block 37 arranged at the upper end of the drawing wire 12 is driven by the third screw rod 39 to descend until reaching the upper part of the alloy core wires, the second clamping plates 32 arranged at the two sides of the drawing wire 12 absorb the two second clamping plates 32 and clamp the alloy core wires due to the attraction of the iron absorbing layer 35 arranged inside, the alloy core wires are clamped and pass through the front part of the ejection plate 14 conveyed to the lower part, the fifth groove 43 arranged in the ejection plate 14 drives the ejection plate 14 to slide in the third chute 42 backwards under the stretching tension of the clamping block 44 and the first pull rod 45 by the second cylinder 47, when ejection is needed, the clamping blocks 44 can be moved out of the fifth grooves 43 through the third air cylinders 48, so that the ejection plate 14 is pushed forward under the elasticity of the second springs 41, and at the moment of ejection, the first air cylinders 36 arranged in the towing line 12 are used for respectively ejecting the second clamping plates 32 outwards to release the alloy core wires.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a follow-up silk feeding equipment, includes box (1), its characterized in that: the utility model discloses a box, including box (1), first movable rod (3) is provided with horizontal pole (2) on one side of box (1), first movable rod (3) and horizontal pole (2) swing joint, first movable rod (3) front end is provided with first splint (4), wire inlet (5) have been seted up to box (1) one side, passageway (6) have been seted up in box (1), slot (7) have been seted up in passageway (6), first recess (8) and second recess (9) have been seted up in box (1), first recess (8) and second recess (9) are located both ends about passageway (6), the first groove (8) and the second groove (9) are internally provided with symmetrical wire feeding wheels (10), the first groove (8) and the second groove (9) are internally provided with symmetrical output wheels (11), four output wheels (11) are positioned at the front end of the wire feeding wheels (10), the box body (1) is internally provided with a wire drawing strip (12), the wire drawing strip (12) is positioned in front of the output wheels (11), the box body (1) is internally provided with an opening (13), the opening (13) is internally provided with an ejection plate (14), the ejection plate (14) is positioned below the wire drawing strip (12), the front end of the opening (13) is provided with a wire guide tube (15), two sides of the wire drawing rod (12) are provided with symmetrical second clamping plates (32), a plurality of second sliding rods (33) which are distributed equidistantly are arranged between the second clamping plates (32) and the wire drawing rod (12), two sides of the wire drawing rod (12) are provided with a plurality of third grooves (34) which are distributed equidistantly, a plurality of third grooves (34) are in sliding connection with the second sliding rods (33), the inner sides of the second clamping plates (32) are provided with a suction iron layer (35), four first air cylinders (36) which are distributed equidistantly are arranged in the wire drawing rod (12), the front ends of the four first air cylinders (36) are fixedly connected with the second clamping plates (32) through the wire drawing rod (12), the upper ends of the wire drawing rod (12) are provided with sliding blocks (37), the two second clamping plates (32) are internally provided with symmetrical fourth grooves (38), the sliding blocks (37) are internally provided with a third motor (39), the lower ends (42) are provided with a third sliding groove (39), the lower end (42) is provided with a spring ejection plate (14), the second springs (41) are fixedly connected with the third sliding grooves (42), symmetrical fifth grooves (43) are formed in the ejection plates (14), clamping blocks (44) are arranged in the fifth grooves (43), symmetrical first pull rods (45) are arranged at the upper ends of the clamping blocks (44), symmetrical second pull rods (46) are arranged at the rear ends of the first pull rods (45), symmetrical second air cylinders (47) are arranged at the rear ends of the second pull rods (46), and symmetrical third air cylinders (48) are arranged at the upper ends of the clamping blocks (44) through the first pull rods (45).

2. A follow-up wire feeding apparatus according to claim 1, wherein: the novel movable wire inserting device is characterized in that an inserting rod (16) is arranged at the front end of the first movable rod (3), a wire tray (17) is arranged in the inserting rod (16), a first sliding rod (18) is arranged at the rear end of the first movable rod (3) through a transverse rod (2), a first sliding groove (19) is formed in the first movable rod (3), the first sliding groove (19) is in sliding connection with the first sliding rod (18), a first spring (20) is arranged between the first sliding rod (18) and the first sliding groove (19), and the first spring (20) is fixedly connected with the first sliding groove (19).

3. A follow-up wire feeding apparatus according to claim 1, wherein: the cleaning sponge is characterized in that a cleaning sponge (21) is arranged at the upper end of the channel (6), a magnet block (22) is arranged at the upper end of the cleaning sponge (21), the magnet block (22) is movably connected with the cleaning sponge (21), a first screw rod (23) is arranged in the magnet block (22), a first rotating motor (24) is arranged at the upper end of the first screw rod (23), a second rotating motor (25) is arranged in the box body (1), and the second rotating motor (25) is arranged at the front end of the first rotating motor (24).

4. A follow-up wire feeding apparatus according to claim 3, wherein: the utility model discloses a cleaning sponge, including passageway (6), cutter (27), second rotating electrical machines (25) lower extreme is provided with second lead screw (26), second lead screw (26) lower extreme is provided with cutter (27), cutter (27) and second lead screw (26) threaded connection, second spout (28) have been seted up to passageway (6) upper end, second spout (28) and cutter (27) sliding connection, cutter (27) are located cleaning sponge (21) the place ahead.

5. A follow-up wire feeding apparatus according to claim 1, wherein: two send silk wheel (10) one side to be provided with symmetrical third rotating electrical machines (29), four output wheel (11) one side is provided with symmetrical fourth rotating electrical machines (30), four be provided with symmetrical belt (31) between output wheel (11).