CN218175249U - Device is woven to multi-structure core-spun yarn - Google Patents

Abstract

The utility model belongs to the technical field of semi-worsted, specifically be a device is woven to multi-structure covering wire, comprising a base plate, fixed surface has the workstation on the bottom plate, first logical groove has been seted up at the workstation center, first logical inslot is equipped with rewinding mechanism, the bottom plate both sides are fixed with first support column, first support column upper end is fixed with first backup pad, be equipped with adjustment mechanism between first backup pad and workstation, first backup pad upper surface is equipped with actuating mechanism, the utility model provides a when covering wire is worked out to the present elasticity degree of outsourcing and cladding angle modulation problem, avoid leading to the exposed problem of heart yearn now because the cladding of different materials thickness.

Description

Multi-structure core-spun yarn weaving device

Technical Field

The utility model belongs to the technical field of semi-spinning is smart, especially, relate to a device is woven to multi-structure core-spun yarn.

Background

The traditional core-spun yarn is mainly produced by a hollow spindle covering machine, and the production mode is that a high-speed rotating spindle is utilized to drive the yarn on a bobbin to be unwound, and the covering yarn is wrapped on the core wire passing through a hollow spindle blade in the process. However, the equipment can only produce the core-spun yarn with uniform and compact cladding at present, the produced core-spun yarn has a single structure, the density of the cladding yarn at the outer side of the core-spun yarn cannot be changed, the cladding angles required by the cladding yarns with different material thicknesses are different, and the problem of core-spun yarn exposure exists because the cladding angle cannot be adjusted by a traditional cladding machine.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome prior art not enough, provide a device is woven to multi-structure core-spun yarn.

The utility model discloses a realize above-mentioned purpose, provide following technical scheme: the utility model provides a device is woven to multi-structure covering wire, includes the bottom plate, surface mounting has the fourth support column on the bottom plate, the fourth support column is kept away from bottom plate one end and is fixed with the workstation, first logical groove has been seted up at the workstation center, first logical inslot is equipped with rewinding mechanism, the bottom plate both sides are fixed with first support column, first support column upper end is fixed with first backup pad, be equipped with adjustment mechanism between first backup pad and workstation, first backup pad upper surface is equipped with actuating mechanism, adjustment mechanism includes a plurality of second backup pads, a plurality of second backup pads are fixed in the workstation upper surface, first spout has been seted up to the second backup pad, first spout inner wall symmetry has seted up first sliding tray, it is provided with first cylinder to slide in the first sliding tray, first cylinder is kept away from first sliding tray one end and is fixed with first regulating plate, first cylinder one end is kept away from to first regulating plate articulates there is first transmission plate, a plurality of second spouts have been seted up to first backup pad, second sliding tray inner wall symmetry has seted up the second sliding tray, it is provided with first slider to slide in the second sliding tray, first slider one end is kept away from second transmission plate and is connected.

Preferably, a first guide groove is formed in the upper surface of the first adjusting plate, a first guide block is fixed to one end, close to the first cylinder, of the first adjusting plate, a first U-shaped groove is formed in the first guide block, a second hollow groove is formed in the first transmission plate, a first rotating column is rotatably arranged on the inner wall of the second hollow groove, a first motor is fixed to the side wall of the first transmission plate, an output shaft of the first motor penetrates through the first transmission plate and is fixedly connected with the first rotating column, and a second adjusting piece is fixed to the first rotating column.

Preferably, rewinding mechanism includes first supporting tube, first groove inner wall has seted up first rotation groove, first rotation inslot rotation is provided with first crown plate, first crown plate and first supporting tube fixed connection, first supporting tube upper surface is fixed with annular base, annular base upper surface is fixed with a plurality of first book line poles, the second guide slot has been seted up to first book line pole, the second rotation groove has been seted up to the workstation, the second rotates the inslot rotation and is provided with first gear, first supporting tube is fixed with first tooth spare, first gear and the meshing of first tooth spare, the workstation upper surface is fixed with the second motor, second motor output shaft and first gear fixed connection.

Preferably, the driving mechanism comprises a first cylinder, the upper surface of the first supporting plate is fixedly provided with a plurality of second supporting columns, the upper end of each second supporting column is fixedly provided with a third supporting plate, the lower surface of the first supporting plate is fixed with the first cylinder, the upper surface of the first supporting plate is provided with a third empty groove, the third empty groove is fixedly provided with a first shunt pipe, the first shunt pipe is provided with a third sliding groove, a piston rod of the first cylinder is in sliding fit with the third sliding groove, the first shunt pipe is fixedly provided with a plurality of second shunt pipes, the second shunt pipe is provided with a fourth sliding groove, the fourth sliding groove is communicated with the third sliding groove, the fourth sliding groove is provided with a first push rod in a sliding mode, and one end of the first push rod, far away from the fourth sliding groove, is fixedly connected with the first driving plate.

As preferred, first backup pad fixed surface has a plurality of third support columns, the third support column is kept away from first backup pad one end and is fixed with the fourth backup pad, the fourth backup pad is kept away from third support column one end and is fixed with the second cylinder, the third spout has been seted up to the third support column, the third spout slides and is provided with first dead lever, third spout one end is kept away from to first dead lever is fixed with the third cylinder, the third cylinder aligns with second cylinder center pin, first backup pad fixed surface has the second guide.

Preferably, a first guide part is fixed at the lower end of the workbench, a fifth support plate is fixed on the side wall of the workbench, a second rotating column is rotatably arranged on the fifth support plate, a fifth cylinder is fixed on the side wall of the second rotating column, a third motor is fixed on the fifth support plate, and an output shaft of the third motor is fixedly connected with the second rotating column.

To sum up, the utility model discloses beneficial effect:

the utility model discloses a set up adjustment mechanism, adjust winding angle according to the winding thickness degree of line to this avoids the extravagant or not enough condition that produces the wastrel of material, greatly reduced the production probability of wastrel, the cost is reduced, simultaneously according to the winding line material of difference, implements pressing of different degrees before the winding, makes it produce the drawing of certain degree, avoids producing behind the winding tensile and the exerted condition of the core wire of the cladding that leads to.

Drawings

Fig. 1 is the overall structure diagram of the present invention.

Fig. 2 is a schematic view of the structure of the adjusting mechanism part of the present invention.

Fig. 3 is a partial schematic view of the adjusting mechanism of the present invention.

Fig. 4 is a schematic view of the rewinding mechanism of the present invention.

Fig. 5 is a schematic view of the structure of the driving mechanism of the present invention.

Fig. 6 is a schematic view of the surface parts of the first supporting plate of the present invention.

Fig. 7 is a sectional view of the present invention.

Fig. 8 is a side partial view of the workbench of the present invention.

Detailed Description

In order to make the technical field personnel understand the utility model discloses the scheme, will combine the drawing in the embodiment of the utility model below, to the technical scheme in the embodiment of the utility model carries out clear, complete description.

Referring to fig. 1-3, a device is woven to multi-structure cored wire, comprising a base plate 1, bottom plate 1 upper surface is fixed with the fourth support column, bottom plate 1 one end is kept away from to the fourth support column is fixed with workstation 2, bottom plate 1 both sides are fixed with first support column 5, first support column 5 upper end is fixed with first backup pad 6, be equipped with adjustment mechanism 7 between first backup pad 6 and workstation 2, adjustment mechanism 7 includes a plurality of second backup pads 9, a plurality of second backup pads 9 are fixed in workstation 2 upper surface, first spout 10 has been seted up to second backup pad 9, first sliding tray 11 has been seted up to first spout 10 inner wall symmetry, it is provided with first cylinder 12 to slide in first sliding tray 11, make first regulating plate 13 can slide regulation from top to bottom in the within range of first sliding tray 11 through the setting of first cylinder 12.

Referring to fig. 1-3, a first adjusting plate 13 is fixed to one end, away from the first sliding groove 11, of the first cylinder 12, a first transmission plate 14 is hinged to one end, away from the first cylinder 12, of the first adjusting plate 13, the first supporting plate 6 is provided with a plurality of second sliding grooves 15, the inner walls of the second sliding grooves 15 are symmetrically provided with second sliding grooves 16, first sliders 17 are slidably arranged in the second sliding grooves 16, one ends, away from the second sliding grooves 16, of the first sliders 17 are fixedly connected with the first transmission plate 14, and through cooperation of the first transmission plate 14 and the first cylinder 12, the first transmission plate 14 can complete adjustment of angles of the first adjusting plate 13 in a moving process.

Referring to fig. 1-3, a first guide groove 18 is formed in an upper surface of a first adjusting plate 13, a first guide block 19 is fixed to one end of the first adjusting plate 13 close to a first cylinder 12, a first U-shaped groove 20 is formed in the first guide block 19, the first guide block 19 and the first guide groove 18 are arranged to prevent a required winding line from deviating, so that influence on a machine is caused to the product, a second empty groove 21 is formed in the first transmission plate 14, a first rotating column 22 is rotatably arranged on an inner wall of the second empty groove 21, a first motor 23 is fixed to a side wall of the first transmission plate 14, an output shaft of the first motor 23 penetrates through the first transmission plate 14 and is fixedly connected with the first rotating column 22, and a second adjusting member 24 is fixed to the first rotating column 22.

Referring to fig. 4 and 7, a first through groove 3 is formed in the center of the workbench 2, a rewinding mechanism 4 is arranged in the first through groove 3, the rewinding mechanism 4 includes a first supporting tube 25, a first rotating groove 26 is formed in the inner wall of the first through groove 3, a first annular plate 27 is rotatably arranged in the first rotating groove 26, the first annular plate 27 is fixedly connected to the first supporting tube 25, an annular base 28 is fixed to the upper surface of the first supporting tube 25, a plurality of first winding rods 29 are fixed to the upper surface of the annular base 28, the winding rods are uniformly wound on the core wires through rotation of the first winding rods 29, a second guide groove 30 is formed in the first winding rods 29, the second guide groove 30 is provided to prevent the winding wires from deviating from the workbench 2, a second rotating groove 31 is formed in the second rotating groove 31, a first gear 32 is rotatably arranged in the first supporting tube 25, the first gear 33 is fixed to the first supporting tube 25, the first gear 32 is engaged with the first gear 33, the first gear 32 is transmitted to the first gear 33 through rotation of the first gear 32, a second supporting tube 25 is connected to a second motor 34.

Referring to fig. 5, a driving mechanism 8 is disposed on an upper surface of a first support plate 6, the driving mechanism 8 includes a first cylinder 35, a plurality of second support columns 36 are fixed on an upper surface of the first support plate 6, a third support plate 37 is fixed on an upper end of the second support columns 36, the first cylinder 35 is fixed on a lower surface of the third support plate 37, a third empty slot 38 is formed on the upper surface of the first support plate 6, a first shunt tube 39 is fixed on the third empty slot 38, a third sliding slot 40 is formed in the first shunt tube 39, a piston rod of the first cylinder 35 is in sliding fit with the third sliding slot 40, the first shunt tube 39 is fixed with a plurality of second shunt tubes 41, the second shunt tube 41 is communicated with the first shunt tube 39, so as to ensure that a first push rod 43 is performed synchronously, and avoid core-spun yarns from being mistakenly formed due to different adjustment angles of the push rods, a fourth sliding slot 42 is formed in the second shunt tube 41, the fourth sliding slot 42 is communicated with the third sliding slot 40, a first push rod 43 is slidably disposed in the fourth sliding slot 42, and one end of the first push rod 43 far from the fourth sliding slot 42 is fixedly connected with the first drive plate 14.

Referring to fig. 6, a plurality of third supporting columns 44 are fixed on the lower surface of the first supporting plate 6, a fourth supporting plate 45 is fixed on one end of the third supporting column 44, which is far away from the first supporting plate 6, a second cylinder 46 is fixed on one end of the fourth supporting plate 45, which is far away from the third supporting column 44, a third sliding chute 47 is formed in the third supporting column 44, a first fixing rod 48 is slidably arranged in the third sliding chute 47, the first fixing rod 48 is slidably arranged, and is adaptable to the coated bobbin with different heights, a third cylinder 49 is fixed on one end of the first fixing rod 48, which is far away from the third sliding chute 47, the center axis of the third cylinder 49 is aligned with that of the second cylinder 46, and by arranging the second cylinder 46 and the third cylinder 49, the rotation of the coated bobbin is not hindered on the premise of clamping the coated bobbin, and a second guide 55 is fixed on the lower surface of the first supporting plate 6.

Referring to fig. 8, a first guide 50 is fixed at the lower end of the working table 2, a fifth support plate 51 is fixed on the side wall of the working table 2, a second rotating column 52 is rotatably arranged on the fifth support plate 51, a fifth cylinder 53 is fixed on the side wall of the second rotating column 52, a third motor 54 is fixed on the fifth support plate 51, and the output shaft of the third motor 54 is fixedly connected with the second rotating column 52.

The utility model discloses theory of operation and use flow:

the existing covered wire bobbin is inserted on the second cylinder 46, the first fixing rod 48 slides downwards, the first fixing rod 48 moves to drive the third cylinder 49 to move, the covered wire bobbin is clamped without influencing the rotation of the covered wire bobbin, meanwhile, the core wire bobbin is clamped in the same mode, the core wire passes through the second guide piece 55, downwards passes through the annular base 28 and the first through groove 3, passes through the first guide piece 50 from the lower end of the first through groove 3, is bound on the fifth cylinder 53, passes through the second adjusting piece 24, passes through the first U-shaped groove 20 along the first guide groove 18, passes through the second guide groove 30 on the first wire winding rod 29, and is knotted on the core wire.

After the fixation is completed, the third motor 54 is started, the third motor 54 rotates to drive the second rotating column 52 to rotate, the second rotating column 52 rotates to drive the fifth cylinder 53 to move, the fifth cylinder 53 moves to drive the core wire bound on the fifth cylinder 53 to be wound on the second rotating column 52, when the third motor 54 is started, the second motor 34 rotates to drive the first gear 32 to rotate, the first gear 32 rotates to drive the first gear 33 to rotate, the first gear 33 rotates to drive the first supporting tube 25 to rotate, the first supporting tube 25 rotates to drive the annular base 28 to rotate, the annular base 28 rotates to drive the first winding rod 29 to rotate, so that the coated wire passing through the second guide groove 30 in the first winding rod 29 is wound on the core wire, when the elastic force of the coated wire needs to be adjusted due to the material of the coated wire, the first motor 23 is started, the first motor 23 starts to drive the first rotating column 22 to rotate, the first rotating column 22 rotates to drive the second adjusting piece 24 to rotate into the first guide groove 18, and the coated wire forms a certain clamping force according to the required elastic degree, so that the coated wire is stretched and the coated wire is prevented from being exposed due to the certain stretching force.

When the thickness of the wire to be coated is changed, the first air cylinder 35 is started, the first air cylinder 35 starts the piston rod to move outwards to push the gas in the first shunt tube 39 to move, the gas in the first shunt tube 39 moves to drive the gas in the second shunt tube 41 to move, the gas in the second shunt tube 41 moves to drive the first push rod 43 to move outwards, the first push rod 43 moves to drive the first transmission plate 14 to move horizontally, the first transmission plate 14 moves to drive one end of the first adjusting plate 13 to move, meanwhile, the first cylinder 12 slides upwards in the first sliding groove 11, and the angle is changed, so that the angle position of the coating wire before coating is changed, and requirements of different thickness of the coating wire are facilitated.

Claims (6)

1. The multi-structure core-spun yarn weaving device is characterized by comprising a bottom plate (1), a fourth supporting column is fixed on the upper surface of the bottom plate (1), a workbench (2) is fixed at one end, far away from the bottom plate (1), of the fourth supporting column, a first through groove (3) is formed in the center of the workbench (2), a rewinding mechanism (4) is arranged in the first through groove (3), first supporting columns (5) are fixed on two sides of the bottom plate (1), a first supporting plate (6) is fixed at the upper ends of the first supporting columns (5), an adjusting mechanism (7) is arranged between the first supporting plate (6) and the workbench (2), a driving mechanism (8) is arranged on the upper surface of the first supporting plate (6), the adjusting mechanism (7) comprises a plurality of second supporting plates (9), the plurality of second supporting plates (9) are fixed on the upper surface of the workbench (2), a first sliding groove (10) is formed in the second supporting plates (9), a first sliding groove (11) is symmetrically formed in the inner wall of the first sliding groove (10), a first adjusting plate (12) is arranged in a first sliding manner, one end, a first cylinder (12) is hinged with a first adjusting plate (13) far away from the first cylinder (12), a plurality of second sliding grooves (15) are formed in the first supporting plate (6), second sliding grooves (16) are symmetrically formed in the inner walls of the second sliding grooves (15), first sliding blocks (17) are arranged in the second sliding grooves (16) in a sliding mode, and one ends, far away from the second sliding grooves (16), of the first sliding blocks (17) are fixedly connected with the first transmission plate (14).

2. The multi-structure core-spun yarn weaving device according to claim 1, characterized in that a first guide groove (18) is formed in the upper surface of the first adjusting plate (13), a first guide block (19) is fixed to one end, close to the first cylinder (12), of the first adjusting plate (13), a first U-shaped groove (20) is formed in the first guide block (19), a second empty groove (21) is formed in the first transmission plate (14), a first rotating column (22) is rotatably arranged on the inner wall of the second empty groove (21), a first motor (23) is fixed to the side wall of the first transmission plate (14), an output shaft of the first motor (23) penetrates through the first transmission plate (14) and is fixedly connected with the first rotating column (22), and a second adjusting piece (24) is fixed to the first rotating column (22).

3. The device for weaving the multi-structure core-spun yarn according to claim 1, wherein the rewinding mechanism (4) comprises a first supporting tube (25), a first rotating groove (26) is formed in the inner wall of the first through groove (3), a first annular plate (27) is rotatably arranged in the first rotating groove (26), the first annular plate (27) is fixedly connected with the first supporting tube (25), an annular base (28) is fixedly arranged on the upper surface of the first supporting tube (25), a plurality of first yarn winding rods (29) are fixedly arranged on the upper surface of the annular base (28), a second guide groove (30) is formed in the first yarn winding rod (29), a second rotating groove (31) is formed in the workbench (2), a first gear (32) is rotatably arranged in the second rotating groove (31), a first tooth member (33) is fixed on the first supporting tube (25), the first gear (32) is meshed with the first tooth member (33), a second motor (34) is fixed on the upper surface of the workbench (2), and the second gear (32) is fixedly connected with an output shaft (32).

4. The multi-structure cored wire weaving device according to claim 1, characterized in that the driving mechanism (8) comprises a first cylinder (35), a plurality of second support columns (36) are fixed on the upper surface of the first support plate (6), a third support plate (37) is fixed on the upper end of the second support columns (36), the first cylinder (35) is fixed on the lower surface of the third support plate (37), a third empty slot (38) is formed in the upper surface of the first support plate (6), a first shunt tube (39) is fixed on the third empty slot (38), a third sliding slot (40) is formed in the first shunt tube (39), a piston rod of the first cylinder (35) is in sliding fit with the third sliding slot (40), a plurality of second shunt tubes (41) are fixed on the first shunt tube (39), a fourth sliding slot (42) is formed in the second shunt tube (41), the fourth sliding slot (42) is communicated with the third sliding slot (40), a first push rod (43) is slidably arranged in the fourth sliding slot (42), and one end of the first push rod (43) is far away from the first sliding fixed plate (14).

5. The device for weaving the multi-structure cored wires according to claim 1, wherein a plurality of third supporting columns (44) are fixed on the lower surface of the first supporting plate (6), a fourth supporting plate (45) is fixed on one end, away from the first supporting plate (6), of each third supporting column (44), a second cylinder (46) is fixed on one end, away from the third supporting column (44), of each fourth supporting plate (45), a third sliding groove (47) is formed in each third supporting column (44), a first fixing rod (48) is slidably arranged in each third sliding groove (47), a third cylinder (49) is fixed on one end, away from the third sliding groove (47), of each first fixing rod (48), the third cylinder (49) is aligned with the central axis of the second cylinder (46), and a second guide part (55) is fixed on the lower surface of the first supporting plate (6).

6. A multi-structure core-spun yarn weaving device according to claim 1, characterized in that a first guiding element (50) is fixed at the lower end of the working table (2), a fifth supporting plate (51) is fixed on the side wall of the working table (2), the fifth supporting plate (51) is rotatably provided with a second rotating column (52), a fifth cylinder (53) is fixed on the side wall of the second rotating column (52), a third motor (54) is fixed on the fifth supporting plate (51), and the output shaft of the third motor (54) is fixedly connected with the second rotating column (52).

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