CN113403764B - Wire drawing machine capable of automatically flushing and flushing method - Google Patents

Abstract

The invention discloses a wire drawing machine capable of automatically flushing, which comprises a shell, an automatic exchange mechanism, a wire arrangement assembly and a first liquid spraying assembly, wherein the shell is provided with a wire inlet and a wire outlet; the automatic exchange mechanism is arranged in the shell and positioned below the shell and comprises a mounting seat, a first rolling crankshaft, a second rolling crankshaft and a first power mechanism, wherein the mounting seat is rotatably arranged on the shell, the first rolling crankshaft and the second rolling shaft are rotatably arranged on the mounting seat respectively and symmetrically arranged in parallel with the central axis of the mounting seat, and the first power mechanism is in driving connection with the mounting seat. According to the automatic flushing wire drawing machine provided by the invention, the first liquid spraying component automatically and timely flushes glass fiber yarns at the moment after the first power mechanism drives the mounting seat to rotate and drives the first winding shaft and the second winding shaft to rotate and exchange, so that the defects of yarn winding, hairiness and the like of the glass fiber yarns are avoided, the quality of raw yarns is improved, the workload of operators is reduced, and the timeliness of flushing the exchanged glass fiber yarns is ensured.

Description

Wire drawing machine capable of automatically flushing and flushing method

Technical Field

The invention relates to the technical field of wire drawing machine equipment, in particular to a wire drawing machine capable of automatically flushing and a flushing method.

Background

In the glass fiber yarn production process, a double-machine-head automatic cylinder-changing wire drawing machine is mostly adopted, and the double-machine-head automatic cylinder-changing wire drawing machine is also called.

However, the traditional automatic tube-changing wire drawing can only finish the switching between the double tubes, and the glass fiber yarns on the automatic tube-changing wire drawing machine need to be manually and timely washed at the moment when the double tubes of the wire drawing machine are switched; otherwise, if the personnel do not exchange at the station or at the same time by a plurality of wire drawing machines, the glass fiber yarns cannot be washed in time, and the glass fiber yarns may have defects such as yarn winding, hairiness and the like to influence the quality of the raw yarns, so that the workload of the operators is increased, and the timeliness of washing by the operators cannot be guaranteed.

Meanwhile, the winding displacement unit on the winding displacement unit can rub the glass fiber yarns in the whole working process, so that the glass fiber yarns are wound, hairiness and other defects to influence the quality of raw yarns, operators are required to manually rinse the glass fiber yarns on the stations continuously in the whole working process, the workload of the operators is increased, and the rinsing quality cannot be guaranteed.

Disclosure of Invention

In order to solve the technical problems in the background technology, the invention provides a wire drawing machine capable of automatically flushing and a flushing method.

The invention provides an automatic flushing wire drawing machine which comprises a shell, an automatic exchange mechanism, a wire arrangement assembly and a first liquid spraying assembly, wherein the shell is provided with a wire inlet and a wire outlet;

the automatic exchange mechanism is arranged in the shell and positioned below the shell, and comprises a mounting seat, a first rolling crankshaft, a second rolling crankshaft and a first power mechanism, wherein the mounting seat is rotatably arranged on the shell;

the flat cable assembly is arranged in the shell and is positioned obliquely above the automatic exchange mechanism;

the first liquid spraying component is arranged in the shell, is positioned obliquely above the automatic exchange mechanism, and is arranged on the opposite side of the automatic exchange mechanism opposite to the wire arrangement component; and the first liquid spraying component is used for flushing the glass fiber yarns in the area between the winding assembly and the first crimping shaft close to the winding assembly at the moment after the first power mechanism drives the mounting seat to rotate and drives the first crimping shaft and the second crimping shaft to rotate and exchange.

Preferably, the first spray assembly has a first spray bar rotatably mounted on the housing and arranged in parallel with the winding displacement bar, and a first spray nozzle arranged on the first spray bar and disposed toward a region between the automatic exchange mechanism and the winding displacement assembly and at an outer end of the first spray bar.

Preferably, in a first plane perpendicular to the first spray rod, an included angle of projection of a liquid spraying area generated when the first spray nozzle sprays liquid on the first plane is C, a first tangent line is arranged on one side, close to the winding displacement assembly, of the first spray nozzle and the first winding displacement assembly, a second tangent line is arranged on one side, close to the first winding displacement assembly, of the first spray nozzle, and an included angle between the first tangent line and the second tangent line is D, wherein C is less than or equal to D.

Preferably, the first nozzle is arranged perpendicular to the first spray bar.

Preferably, the wire arrangement assembly comprises a wire arrangement rod, a plurality of wire arrangement units and a second power mechanism, wherein the wire arrangement rod is rotatably arranged on the shell and is parallel to the central axis of the mounting seat; the plurality of winding displacement units are arranged on the winding displacement rod at equal intervals, and the second power mechanism is in driving connection with the winding displacement rod and is used for driving the winding displacement rod to rotate.

Preferably, a second spray assembly is also included; the second liquid spraying assembly is arranged on the shell and is positioned above the wire arrangement assembly in an inclined mode, the second liquid spraying assembly comprises a second spray rod and a plurality of second nozzles, the second spray rod is rotatably arranged on the shell and is parallel to the wire arrangement rod, the plurality of second nozzles are arranged on the second spray rod and face the wire arrangement rod, and the plurality of second nozzles are arranged in one-to-one correspondence with the plurality of wire arrangement units.

Preferably, all the second nozzles are arranged parallel to each other and perpendicular to the second spray bar.

Preferably, the distances between any one of the second nozzles and the two inner side walls of the corresponding flat cable unit are equal.

Preferably, in a second plane where the second spray rod and the winding displacement rod are located, an included angle of projection of a liquid spraying area generated when any one second spray nozzle sprays liquid on the second plane is A, and an included angle between any one second spray nozzle and two inner side walls of the winding displacement unit corresponding to the any one second spray nozzle is B, wherein A is more than or equal to B.

The invention provides a method for automatically flushing a wire drawing machine when two crimping shafts of the wire drawing machine are automatically exchanged, which comprises the following steps: the automatic flushing wire drawing machine is characterized in that the first liquid spraying component is used for flushing glass fiber yarns in a region between the wire arrangement component and the first crimping shaft close to the wire arrangement component at the moment after the first power mechanism drives the mounting seat to rotate and drives the first crimping shaft and the second crimping shaft to rotate and exchange; and stopping flushing by the first liquid spraying assembly until all the glass fiber yarns which are wound on the first winding shaft and are exposed are completely cleaned.

According to the automatic flushing wire drawing machine, when the first power mechanism drives the mounting seat to rotate and drives the first winding shaft and the second winding shaft to rotate and exchange, the first liquid spraying component automatically and timely flushes the glass fiber yarns, so that defects of yarn winding, hairiness and the like of the glass fiber yarns are avoided, the quality of raw yarns is improved, the workload of operators is reduced, and the timeliness of flushing the exchanged glass fiber yarns is ensured.

Drawings

Fig. 1 is a schematic front view of an automatic flushing wire drawing machine according to the present invention.

Fig. 2 is a schematic front view of a first spray assembly and a first rolling shaft of an automatic flushing wire drawing machine according to the present invention.

Fig. 3 is a schematic side view of an automatic flushing wire drawing machine according to the present invention.

Fig. 4 is a schematic side view of a first spray assembly, a flat cable assembly and a first winding shaft of an automatic flushing wire drawing machine according to the present invention.

Fig. 5 is a schematic front view of a second spray assembly and a flat cable assembly of an automatic flushing wire drawing machine according to the present invention.

Detailed Description

As shown in fig. 1-5, fig. 1 is a schematic front view of a drawing machine capable of automatically flushing according to the present invention. Fig. 2 is a schematic front view of a first spray assembly and a first rolling shaft of an automatic flushing wire drawing machine according to the present invention. Fig. 3 is a schematic side view of an automatic flushing wire drawing machine according to the present invention. Fig. 4 is a schematic side view of a first spray assembly, a flat cable assembly and a first winding shaft of an automatic flushing wire drawing machine according to the present invention. Fig. 5 is a schematic front view of a second spray assembly and a flat cable assembly of an automatic flushing wire drawing machine according to the present invention.

Referring to fig. 1-5, the invention provides an automatic flushing wire drawing machine, which comprises a shell 1, an automatic exchange mechanism 2, a wire arranging component 3 and a first liquid spraying component 4;

the automatic exchange mechanism 2 is arranged in the shell 1 and is positioned below the shell 1, the automatic exchange mechanism 2 comprises a mounting seat 21, a first rolling crankshaft 22, a second rolling crankshaft 23 and a first power mechanism, the mounting seat 21 is rotatably arranged on the shell 1, the first rolling crankshaft 22 and the second rolling crankshaft 23 are respectively rotatably arranged on the mounting seat 21 and are symmetrically arranged in parallel with the central axis of the mounting seat 21, and the first power mechanism is in driving connection with the mounting seat 21 and is used for driving the mounting seat 21 to rotate;

the flat cable assembly 3 is arranged in the shell 1 and is positioned obliquely above the automatic exchange mechanism 2;

the first liquid spraying component 4 is arranged in the shell 1, is positioned obliquely above the automatic exchange mechanism 2, and is arranged on the opposite side of the automatic exchange mechanism 2 opposite to the wire arrangement component 3; at the moment after the first power mechanism drives the mounting seat 21 to rotate and drives the first winding crankshaft 22 and the second winding crankshaft 23 to rotate and exchange, the first liquid spraying assembly 4 is used for flushing the glass fiber yarns in the area between the wire arranging assembly 3 and the first winding crankshaft 22 close to the wire arranging assembly 3.

In the specific working process of the automatic flushing wire drawing machine of the embodiment, at the moment when the first power mechanism drives the mounting seat 21 to rotate and drives the first winding crank shaft 22 and the second winding crank shaft 23 to rotate and exchange, the first liquid spraying component 4 charges and washes the glass fiber yarn which is positioned in the area between the wire arranging component 3 and the first winding crank shaft 22 close to the wire arranging component 3 and is exposed at the outer end position of the first winding crank shaft 22; the first spray assembly 4 stops flushing until the glass fiber yarn exposed on the first winding shaft 22 is completely washed.

In this embodiment, the proposed automatic flushing wire drawing machine, when the first power mechanism drives the mounting seat 21 to rotate and drives the first winding shaft 22 and the second winding shaft 23 to rotate and exchange, the first liquid spraying component 4 automatically and timely flushes the glass fiber yarns, so that the defects of yarn winding, hairiness and the like of the glass fiber yarns are avoided, the quality of the raw yarns is improved, the workload of operators is reduced, and the timeliness of flushing the exchanged glass fiber yarns is ensured.

Referring to fig. 1 to 4, in the embodiment, the first spray assembly 4 has a first spray bar 41 and a first spray nozzle 42, the first spray bar 41 is rotatably mounted on the housing 1 and arranged in parallel with the wire arranging bar 31, and the first spray nozzle 42 is arranged on the first spray bar 41 and is arranged toward a region between the automatic exchanging mechanism 2 and the wire arranging assembly 3 and is located at an outer end of the first spray bar 41.

The beneficial effects are that: the first spray bar 41 is rotated to adjust the first spray nozzle 42 to a proper angle, and at the moment after the first power mechanism drives the mounting seat 21 to rotate and drives the first winding crank shaft 22 and the second winding crank shaft 23 to rotate and exchange, the first spray nozzle 42 is positioned in the area between the wire arranging assembly 3 and the first winding crank shaft 22 close to the wire arranging assembly 3, and the exposed glass fiber yarns positioned at the outer end positions of the first winding crank shaft 22 are washed, and after all the exposed glass fiber yarns are completely washed, the first spray assembly 4 stops washing.

Referring to fig. 4, further, in a first plane perpendicular to the first spray rod 41, an included angle of a projection of a spray area generated when the first spray nozzle 42 sprays the liquid on the first plane is C, a first tangent line 5 is provided on a side of the first spray nozzle 42, which is close to the winding displacement assembly 3, with the first winding displacement assembly 22, a second tangent line 6 is provided on a side of the first spray nozzle 42, which is close to the winding displacement assembly 3, with the first winding displacement assembly 22, and an included angle between the first tangent line 5 and the second tangent line 6 is D, wherein C is equal to or less than D.

The beneficial effects are that: so as to ensure that all glass fiber yarns in the area between the winding displacement assembly 3 and the first winding shaft 22 can be washed, improve washing efficiency and improve raw yarn quality.

Preferably, c=d.

On the premise of ensuring that all glass fiber yarns in the area between the winding displacement assembly 3 and the first winding shaft 22 can be washed, the washing range is reduced, the non-exposed glass fiber yarns are prevented from being washed, the washing efficiency is improved, the quality of raw yarns is improved, and the cost is saved.

Further, the first nozzle 42 is arranged perpendicular to the first spray bar 41.

The beneficial effects are that: the first nozzle 42 is arranged perpendicular to the first spray bar 41 so that the angle of the spray area of the first nozzle 42 is more precisely adjusted.

Further, the wire assembly 3 includes a wire rod 31, a plurality of wire rod units 32, and a second power mechanism, the wire rod 31 being rotatably installed on the housing 1 and arranged in parallel with the central axis of the installation seat 21; the plurality of wire arranging units 32 are arranged on the wire arranging rod 31 at equal intervals, and the second power mechanism is in driving connection with the wire arranging rod 31 and is used for driving the wire arranging rod 31 to rotate.

The beneficial effects are that: the second power mechanism drives the winding displacement rod 31 to rotate so that the plurality of winding displacement units 32 perform winding displacement on the glass fiber yarns.

In other embodiments, a second spray assembly 7 is also included; the second spray assembly 7 is mounted on the housing and is located obliquely above the wire arrangement assembly 3, the second spray assembly 7 includes a second spray bar 71 and a plurality of second nozzles 72, the second spray bar 71 is rotatably mounted on the housing 1 and is arranged parallel to the wire arrangement bar 31, the plurality of second nozzles 72 are arranged on the second spray bar 71 and are arranged towards the wire arrangement bar 31, and the plurality of second nozzles 72 are arranged in one-to-one correspondence with the plurality of wire arrangement units 32.

The beneficial effects are that: the second spray bars 71 are rotated to enable the second spray nozzles 72 to be adjusted to a proper angle, and the second spray nozzles 72 spray liquid to the plurality of winding displacement units 32 corresponding to the second spray nozzles one by one, so that glass fiber yarns in the area of the winding displacement units 32 can be washed in the whole working process, the washing efficiency of the glass fiber yarns is improved, and defects such as yarn winding and hairiness are reduced, so that the quality of raw yarns is improved.

Further, all the second nozzles 72 are arranged parallel to each other and perpendicular to the second spray bars 71.

The beneficial effects are that: all the second nozzles 72 are arranged parallel to each other and perpendicular to the second spray bar 71 so that the angle of the spray area of the second nozzles 72 is more precisely adjusted.

Further, the distance between any one of the second nozzles 72 and the two inner side walls 321 of the corresponding flat cable unit 32 is equal.

The beneficial effects are that: the distance between any one of the second nozzles 72 and the two inner side walls 321 of the corresponding flat cable unit 32 is equal, so that the glass fiber yarns in each flat cable area are flushed with the same effect and are flushed more uniformly.

Referring to fig. 5, further, in the second plane where the second spray bars 71 and the winding displacement bars 31 are located, an included angle of a projection of a spray area generated when any one of the second spray nozzles 72 sprays liquid on the second plane is a, and an included angle between any one of the second spray nozzles 72 and two inner side walls 321 of the winding displacement unit 32 corresponding to the any one of the second spray nozzles 72 is B, wherein a is greater than or equal to B.

The beneficial effects are that: so as to ensure that all glass fiber yarns in any one of the winding displacement units 32 can be washed, avoid the condition that the glass fiber yarns cannot be washed, and improve the quality of the raw yarns.

Preferably, a=b.

On the premise of ensuring that all glass fiber yarns in any one of the flat cable units 32 can be washed, the washing range is reduced, so that the areas without glass fiber yarns are not washed, the washing efficiency is improved, and the cost is saved.

The invention provides a method for automatically flushing a wire drawing machine when two crimping shafts of the wire drawing machine are automatically exchanged, which comprises the following steps: providing the automatic flushing wire drawing machine, wherein the first liquid spraying component 4 is used for flushing glass fiber yarns in the area between the wire arranging component 3 and the first winding crankshaft 22 close to the wire arranging component 3 at the moment after the first power mechanism drives the mounting seat 21 to rotate and drives the first winding crankshaft 22 and the second winding crankshaft 23 to rotate and exchange; the first spray assembly 4 stops flushing until the glass fiber yarn exposed on the first winding shaft 22 is completely washed.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (7)

1. The automatic flushing wire drawing machine is characterized by comprising a shell (1), an automatic exchange mechanism (2), a wire arranging component (3) and a first liquid spraying component (4);

the automatic exchange mechanism (2) is arranged in the shell (1) and is positioned below the shell (1), the automatic exchange mechanism (2) comprises a mounting seat (21), a first rolling crankshaft (22), a second rolling crankshaft (23) and a first power mechanism, the mounting seat (21) is rotatably arranged on the shell (1), the first rolling crankshaft (22) and the second rolling crankshaft (23) are rotatably arranged on the mounting seat (21) respectively and are symmetrically arranged in parallel with the central axis of the mounting seat (21), and the first power mechanism is in driving connection with the mounting seat (21) and is used for driving the mounting seat (21) to rotate;

the flat cable assembly (3) is arranged in the shell (1) and is positioned obliquely above the automatic exchange mechanism (2);

the first liquid spraying component (4) is arranged in the shell (1), is positioned obliquely above the automatic exchange mechanism (2), and is arranged on the opposite side of the automatic exchange mechanism (2) relative to the wire arrangement component (3); at the moment after the first power mechanism drives the mounting seat (21) to rotate and drives the first winding crank shaft (22) and the second winding crank shaft (23) to rotate and exchange, the first liquid spraying component (4) is used for flushing glass fiber yarns in the area between the wire arranging component (3) and the first winding crank shaft (22) close to the wire arranging component (3);

the first spray assembly (4) is provided with a first spray rod (41) and a first spray nozzle (42), the first spray rod (41) is rotatably arranged on the shell (1) and is parallel to the wire arranging rod (31), and the first spray nozzle (42) is arranged on the first spray rod (41) and faces the area between the automatic exchange mechanism (2) and the wire arranging assembly (3) and is positioned at the outer end of the first spray rod (41);

when the device works, at the moment when the first power mechanism drives the mounting seat (21) to rotate and drives the first winding crank shaft (22) and the second winding crank shaft (23) to rotate and exchange, the first liquid spraying component (4) is positioned in the area between the wire arranging component (3) and the first winding crank shaft (22) close to the wire arranging component (3), and glass fiber yarns exposed at the outer end position of the first winding crank shaft (22) are filled and washed;

in a first plane perpendicular to a first spray rod (41), an included angle of projection of a liquid spraying area generated when the first spray nozzle (42) sprays liquid on the first plane is C, a first tangent line (5) is arranged on one side, close to the winding displacement assembly (3), of the first spray nozzle (42) and the first winding displacement assembly (22), a second tangent line (6) is arranged on one side, close to the first winding displacement assembly (22), of the first spray nozzle (42), and an included angle between the first tangent line (5) and the second tangent line (6) is D, wherein C is less than or equal to D;

the first nozzle (42) is arranged perpendicular to the first spray bar (41).

2. The automatic flushable wire drawing machine according to claim 1, wherein the wire-drawing assembly (3) comprises a wire-drawing rod (31), a plurality of wire-drawing units (32) and a second power mechanism, the wire-drawing rod (31) being rotatably mounted on the housing (1) and arranged in parallel with the central axis of the mounting seat (21); the plurality of wire arranging units (32) are arranged on the wire arranging rod (31) at equal intervals, and the second power mechanism is in driving connection with the wire arranging rod (31) and is used for driving the wire arranging rod (31) to rotate.

3. The automatic flushable wire drawing machine according to claim 2, further comprising a second spray assembly (7); the second liquid spraying assembly (7) is arranged on the shell and is positioned above the wire arranging assembly (3), the second liquid spraying assembly (7) comprises a second spray rod (71) and a plurality of second nozzles (72), the second spray rod (71) is rotatably arranged on the shell (1) and is arranged in parallel with the wire arranging rod (31), the plurality of second nozzles (72) are arranged on the second spray rod (71) and are arranged towards the wire arranging rod (31), and the plurality of second nozzles (72) are arranged in one-to-one correspondence with the plurality of wire arranging units (32).

4. A drawing machine capable of automatic flushing according to claim 3, characterized in that all the second nozzles (72) are arranged parallel to each other and perpendicular to the second spray bars (71).

5. A wire drawing machine capable of automatically flushing according to claim 3, wherein the distance between any one of the second nozzles (72) and the two inner side walls (321) of the wire arranging unit (32) corresponding to the second nozzle is equal.

6. The automatic flushing wire drawing machine according to claim 3, wherein in a second plane where the second spray bars (71) and the wire arranging bars (31) are located, an included angle of projection of a liquid spraying area generated when any one of the second spray nozzles (72) sprays liquid on the second plane is A, and an included angle between any one of the second spray nozzles (72) and two inner side walls (321) of the wire arranging unit (32) corresponding to the second spray nozzle is B, wherein A is larger than or equal to B.

7. A method for automatically flushing a wire drawing machine upon automatic exchange of its two crimping shafts, the method comprising: providing an automatic flushing wire drawing machine according to any one of claims 1-6, wherein the first liquid spraying component (4) is used for flushing glass fiber yarns in a region between the wire arranging component (3) and the first winding crankshaft (22) close to the wire arranging component (3) at the moment after the first power mechanism drives the mounting seat (21) to rotate and drives the first winding crankshaft (22) and the second winding crankshaft (23) to rotate and exchange; until the glass fiber yarn exposed on the first winding shaft (22) is completely cleaned, the first liquid spraying component (4) stops flushing.