CN218879009U - Wire rod guiding mechanism and guiding device - Google Patents

Abstract

The application provides a wire rod guiding mechanism, including mounting panel, first roller set and second roller set. The two roller bodies in the first roller group and the two roller bodies in the second roller group enclose a space for the cored wire to pass through, and when the diameter of the cored wire changes, the distance between the two roller bodies in the first roller group and/or the two roller bodies in the second roller group can be adjusted to adjust the size of the space to match the cored wire with different diameters. The application still provides a wire rod guider, has realized wire rod guiding mechanism's diversion so that the covering wire can be according to this diversion accurately to the position of ideal including a plurality of kink.

Description

Wire rod guiding mechanism and guiding device

Technical Field

The application relates to the technical field of cored wire feeding, in particular to a wire guiding mechanism and a wire guiding device.

Background

In the process of steelmaking or casting, the melting core-spun yarn can effectively add smelting materials into molten steel or molten iron, change the form of inclusions in the molten steel and effectively improve the quality of steelmaking and casting products. However, the amount of the core-spun yarn added is often measured by its length, and a special yarn feeding device is required to insert the core-spun yarn into a desired position during the yarn feeding process. The commonly used wire feeding equipment is often accompanied with conditions such as wire running, wire blocking, abrasion and the like in the wire feeding process of the cored wire, so that the deviation of the addition amount and the estimated addition amount of the cored wire occurs, the addition amount of the cored wire is inaccurate, and the quality of a steel-making casting product is influenced.

Disclosure of Invention

To above-mentioned condition, for overcoming prior art's defect, this application provides a wire rod guiding mechanism, has reduced the wearing and tearing of covering wire, and can match the covering wire of different diameters.

Two roller bodies in a first roller set and two roller bodies in a second roller set in the wire guiding mechanism disclosed by the application enclose a space for the cored wire to pass through, and the cored wire is not easy to wear due to small rolling friction force; when the diameter of the core-spun yarn is changed, the distance between the two roller bodies in the first roller group and/or the two roller bodies in the second roller group can be adjusted to adjust the space size to match the core-spun yarn with different diameters. The application still provides a wire rod guider can make the core-spun yarn guide to the position of ideal accurately.

In order to achieve the above object, the present application provides a wire guiding mechanism for guiding a cored wire. When the cored wire passes through the first roller set and the second roller set, the cored wire is not easy to wear due to small sliding friction force; when the diameter of the core-spun yarn is changed, the distance between the two roller bodies in the first roller group and/or the two roller bodies in the second roller group can be adjusted to adjust the space size to match the core-spun yarn with different diameters.

In one embodiment of the present disclosure, a wire guide mechanism includes a mounting plate, a first roller set and a second roller set. The first roller set and the second roller set are movably mounted on the mounting plate. The first roller set and the second roller set respectively comprise two roller bodies which are arranged at intervals; the two roller bodies of the first roller group adjust their relative distance to each other along a first direction, and the two roller bodies of the second roller group adjust their relative distance to each other along a second direction, the first direction being non-parallel to the second direction.

In one embodiment of the present disclosure, the first direction and the second direction are perpendicular.

In one embodiment disclosed in the present application, two roller bodies in the first roller group are arranged in parallel; and/or two roll bodies in the second roll group are arranged in parallel.

In one embodiment of the present disclosure, the first direction and the second direction are perpendicular; two roller bodies in the first roller set are arranged in parallel; and two roller bodies in the second roller group are arranged in parallel.

In one embodiment disclosed in the present application, the mounting plate has a hollowed opening therein, the opening is composed of a first edge, a second edge, a third edge and a fourth edge, the third edge is disposed opposite to the first edge, and the fourth edge is disposed opposite to the second edge;

corresponding first convex edges, second convex edges, third convex edges and fourth convex edges are arranged at the edges of the first edge, the second edge, the third edge and the fourth edge;

one ends of two roller bodies in the first roller set are arranged on the first convex edge, and the other ends of the two roller bodies in the first roller set are arranged on the third convex edge; and one ends of two roller bodies in the second roller set are arranged on the second convex edge, and the other ends of the two roller bodies are arranged on the fourth convex edge.

In one embodiment of the present disclosure, the first convex edge and the third convex edge are parallel and both located on the same side of the mounting plate; the second convex edge and the fourth convex edge are parallel and are positioned on the other side of the mounting plate. A first through groove is formed in the first convex edge, a third through groove is formed in the third convex edge, one end of each of two roller bodies in the first roller set is arranged in the first through groove in a sliding mode, and the other end of each of the two roller bodies in the first roller set is arranged in the third through groove in a sliding mode; and/or

The second protruding edge is provided with a second through groove, the fourth protruding edge is provided with a fourth through groove, one end of each of two roller bodies in the second roller set is arranged in the second through groove in a sliding mode, and the other end of each of the two roller bodies in the second roller set is arranged in the fourth through groove in a sliding mode.

In one embodiment disclosed in the present application, a plurality of holes are arranged on the first convex edge, a plurality of holes are arranged on the third convex edge, one end of each of two roller bodies in the first roller set is inserted into one of the holes on the first convex edge, and the other end of each of the two roller bodies in the first roller set is inserted into one of the holes on the third convex edge; and/or

The second convex edge is provided with a plurality of holes, the fourth convex edge is provided with a plurality of holes, one ends of two roller bodies in the second roller set are inserted into one of the holes on the second convex edge, and the other ends of the two roller bodies in the second roller set are inserted into one of the holes on the fourth convex edge.

The application also provides a wire rod guider, has realized wire rod guiding mechanism's diversion so that the covering wire can lead to the position of ideal according to this diversion accurately including a plurality of kink.

In one embodiment of the present disclosure, the wire guide mechanism includes a bracket and a plurality of any one of the above-mentioned wire guide mechanisms disposed on the bracket.

In one embodiment of the present disclosure, the bracket includes a plurality of adjacent bending portions; the wire guiding mechanisms are arranged on the corresponding bending parts.

In summary, the present application has the following beneficial effects:

the first roller set and the second roller set are movably arranged on the mounting plate, and the surrounding space enables the cored wire to pass through. When the cored wire passes through, the cored wire is not easy to wear because the friction force between the cored wire and the double roller set is small;

the two roller bodies of the first roller group adjust their relative distance to each other along a first direction, and the two roller bodies of the second roller group adjust their relative distance to each other along a second direction, the first direction being non-parallel to the second direction. When core-spun yarns with different diameters need to be guided, the relative distance between the two roller bodies can be adjusted along the first direction and/or the relative distance between the two roller bodies can be adjusted along the second direction so as to match the change of the size of the core-spun yarns, and the wire rod guide mechanism can be repeatedly utilized;

the wire guiding device comprises a support, wherein a plurality of wire guiding mechanisms mounted on the support are turned by bending parts on the support, so that the core-spun wire passing through the wire guiding mechanisms can be turned to be accurately guided into an ideal position.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic perspective view of a wire guide mechanism in an embodiment of the present application;

FIG. 2 is a front view of a wire guide mechanism in an embodiment of the present application

FIG. 3 is a schematic front view of the mounting plate in the embodiment of the present application;

FIG. 4 is a schematic side view of the wire guide mechanism in the embodiment of the present application;

fig. 5 is a schematic structural view of the wire guide device in the embodiment of the present application.

Detailed Description

In the following, only certain exemplary embodiments are briefly described. As those skilled in the art will recognize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the embodiments of the present application. Accordingly, the drawings and description are to be regarded as illustrative in nature, and not as restrictive.

In the description of the embodiments of the present application, it is to be understood that the terms "upper", "vertical", "horizontal", "first direction", "second direction", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the embodiments of the present application and simplifying the description, but do not indicate or imply that the devices or elements referred to must have specific orientations, be constructed in specific orientations, and be operated, and thus, should not be construed as limiting the embodiments of the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present application, "a plurality" means two or more unless specifically defined otherwise.

In the embodiments of the present application, unless otherwise specifically stated or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally formed; they may be mechanically coupled, directly coupled, or indirectly coupled through intervening agents, both internally and/or in any other manner known to those skilled in the art. The specific meanings of the above terms in the embodiments of the present application can be understood by those of ordinary skill in the art according to specific situations.

The following disclosure provides many different embodiments or examples for implementing different configurations of embodiments of the application. In order to simplify the disclosure of embodiments of the present application, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the embodiments of the application. Furthermore, embodiments of the present application may repeat reference numerals and reference letters in the various examples, which are repeated for purposes of simplicity and clarity and do not in themselves dictate a relationship between the various embodiments and arrangements discussed.

Embodiments of the present application will be described in detail below with reference to the accompanying drawings.

Examples

The embodiment provides a wire guiding mechanism for guiding cored wires. The two roller bodies in the first roller group 21 and the two roller bodies in the second roller group 22 enclose a space G for the cored wire to pass through, and when the cored wire passes through the first roller group 21 and the second roller group 22, the cored wire is not easy to wear due to small rolling friction force; when the diameter of the core-spun yarn is changed, the distance between the two roller bodies in the first roller group 21 and/or the two roller bodies in the second roller group 22 can be adjusted to adjust the size of the space G to match the core-spun yarn of different diameters.

As shown in fig. 1,2, the wire guide mechanism includes the mounting plate 1, the first roller group 21 and the second roller group 22. The first roller set 21 and the second roller set 22 are movably mounted on the mounting plate 1. The first roller set 21 and the second roller set 22 both comprise two roller bodies arranged at intervals; the two roll bodies of the first roll stack 21 adjust their relative distance to each other in a first direction H1 and the two roll bodies of the second roll stack 22 adjust their relative distance to each other in a second direction H2, the first and second directions being non-parallel.

The first roller set 21 and the second roller set 22 are movably arranged on the mounting plate 1, so that the first roller set 21 and the second roller set 22 can be assembled and disassembled relative to the mounting plate 1; the first roller group 21 and the second roller group 22 both comprise two roller bodies arranged at intervals, so that the cored wire can pass through between the roller bodies of the first roller group 21 and between the roller bodies of the second roller group 22; the two roller bodies in the first roller group 21 and the two roller bodies in the second roller group 22 can respectively adjust the distance between the roller bodies along the respective directions to meet the guiding requirements of the cored wires with different diameters.

As shown in fig. 1 to 4, the wire guide mechanism may be any one of the following three structures to position the passage space of the cored wire:

the first direction is vertical to the second direction;

the two roller bodies in the first roller group 21 are arranged in parallel; and/or two roller bodies in the second roller group 22 are arranged in parallel;

the first direction and the second direction are perpendicular and the two roll bodies of the first roll group 21 and the two roll bodies of the second roll group 22 are arranged in parallel.

The three structures of the wire rod guide mechanism can position the passing space of the cored wire so that the cored wire passes through the wire rod guide mechanism.

As shown in fig. 3, the mounting plate 1 has a hollow opening 10 therein, the opening is composed of a first side 11, a second side 12, a third side 13 and a fourth side 14, the third side 13 is disposed opposite to the first side 11, and the fourth side 14 is disposed opposite to the second side 12; the edges of the first edge 11, the second edge 12, the third edge 13 and the fourth edge 14 are provided with a corresponding first convex edge 110, a corresponding second convex edge 120, a corresponding third convex edge 130 and a corresponding fourth convex edge 140; one end of each of the two roller bodies in the first roller group 21 is arranged on the first convex edge 110, and the other end of each of the two roller bodies is arranged on the third convex edge 130; two rollers in the second roller set 22 have one end mounted on the second ledge 120 and the other end mounted on the fourth ledge 140.

The mounting plate 1 has a hollowed opening 10 inside to allow the cored wire to pass through the mounting plate 1. The opening 10 is composed of a first side 11, a second side 12, a third side 13 and a fourth side 14; the edges of the first edge 11, the second edge 12, the third edge 13 and the fourth edge 14 are provided with a corresponding first convex edge 110, a second convex edge 120, a third convex edge 130 and a fourth convex edge 140. The third edge 13 is disposed opposite the first edge 11 such that the third edge 130 is opposite the first edge 110, and the fourth edge 14 is disposed opposite the second edge 12 such that the fourth edge 140 is opposite the second edge 120. The two roller bodies of the first roller group 21 and the two roller bodies of the second roller group 22 may be respectively mounted on the corresponding flanges.

As shown in fig. 1, the first convex edge 110 and the third convex edge 130 are parallel and both located on the same side of the mounting plate 1; the second convex edge 120 and the fourth convex edge 140 are parallel and are located on the other side of the mounting plate 1.

A first through groove 111 is formed in the first convex edge 110, a third through groove 131 is formed in the third convex edge 130, one end of each of two roller bodies in the first roller group 21 is slidably arranged in the first through groove 111, and the other end of each of the two roller bodies is slidably arranged in the third through groove 131; and/or the second protruding edge 120 is provided with a second through groove 121, the fourth protruding edge 140 is provided with a fourth through groove 141, one end of each of the two roller bodies in the second roller group 22 is slidably disposed in the second through groove 121, and the other end of each of the two roller bodies is slidably disposed in the fourth through groove 141.

In another embodiment, the through slots can be replaced by a plurality of holes, for example, a plurality of holes (not shown) can be arranged on the first convex edge 110, a plurality of holes can be arranged on the third convex edge 130, one end of each of the two roller bodies in the first roller group 21 is inserted into one of the plurality of holes on the first convex edge 110, and the other end is inserted into one of the plurality of holes on the third convex edge 130; and/or the second convex edge 120 is provided with a plurality of holes, the fourth convex edge 140 is provided with a plurality of holes, one end of each of the two roller bodies in the second roller group 22 is inserted into one of the plurality of holes on the second convex edge 120, and the other end of each of the two roller bodies is inserted into one of the plurality of holes on the fourth convex edge 140.

The first convex edge 110 and the third convex edge 130 are parallel and are positioned on the same side of the mounting plate 1; the second convex edge 120 and the fourth convex edge 140 are parallel and are positioned at the other side of the mounting plate 1, so that the first roller group 21 and the second roller group 22 are arranged at intervals, the space of the mounting plate 1 is fully utilized, and the roller bodies do not interfere with each other when rolling.

In addition, when the diameters of the core-spun yarns to be guided are different, the following two ways of structural design are adopted to meet the requirements of the diameters of the core-spun yarns:

in the first method, one end of each of the two roll bodies in the first roll group 21 is slidably disposed in the first through groove 111, and the other end of each of the two roll bodies in the first roll group 21 is slidably disposed in the third through groove 131, so that the two roll bodies in the first roll group 21 can be slid, one end of each of the two roll bodies in the second roll group 22 is slidably disposed in the second through groove 121, and the other end of each of the two roll bodies in the second roll group 22 is slidably disposed in the fourth through groove 141, so that the two roll bodies in the first roll group 21 and/or the two roll bodies in the second roll group 22 can be slid, so as to adjust the size of the space G which is surrounded by the first roll group 21 and the second roll group 22 and through which the cored wire can pass;

in the second method, a plurality of holes are respectively arranged on the first convex edge 110, the second convex edge 120, the third convex edge 130 and the fourth convex edge 140, and the size of a space G which is formed by the first roller set 21 and the second roller set 22 and can be used for a cored wire to pass through is adjusted by respectively adjusting the plugging positions of two roller bodies in the first roller set 21 on the first convex edge 110 and the plurality of holes in the third convex edge 130 and adjusting the plugging positions of two roller bodies in the second roller set 22 on the second convex edge 120 and the plurality of holes in the fourth convex edge 140.

In actual use, the cored wire is positioned in a space G formed by two roller bodies in the first roller group 21 and two roller bodies in the second roller group 22 and passes through the mounting plate 1, so that the cored wire does not generate friction with the mounting plate 1, and the cored wire is prevented from being worn. When the diameters of the cored wires are different, the distance between the two roller bodies in the first roller group 21 and/or the distance between the two roller bodies in the second roller group 22 can be adjusted to match different diameters of the cored wires.

Examples

The wire guiding device provided by the embodiment comprises a plurality of bending parts 31, so that the direction change of the wire guiding mechanism is realized, and the cored wire can be accurately guided to an ideal position according to the direction change.

As shown in fig. 2, the wire guide device includes a bracket 3 and a plurality of any one of the wire guide mechanisms provided on the bracket 3. The bracket 3 comprises several adjoining folds 31; the plurality of wire guide mechanisms are disposed on the corresponding plurality of bent portions 31.

In practical use, a plurality of wire guiding mechanisms of the above embodiment 1 are arranged on a plurality of corresponding bending parts 31 of the bracket 3, so that the wire guiding mechanisms realize direction change. When the cored wire passes through the wire guide mechanism, the cored wire can be accurately guided into an ideal position by changing the direction of the cored wire.

The embodiments of the present application may be subject to various modifications and alterations without departing from the spirit and scope of the present invention. Accordingly, it should be understood that the embodiments of the present application should not be limited to the exemplary embodiments described below, but should be controlled by the limitations set forth in the claims and any equivalents thereof.

Claims (10)

1. A wire guiding mechanism for guiding a wire, comprising:

a mounting plate (1);

the first roller set (21) and the second roller set (22) are movably arranged on the mounting plate (1);

wherein, the first and the second end of the pipe are connected with each other,

the first roller set (21) and the second roller set (22) comprise two roller bodies which are arranged at intervals;

two roll bodies of the first roll stack (21) are adjustable in their relative distance to each other in a first direction (H1), two roll bodies of the second roll stack (22) are adjustable in their relative distance to each other in a second direction (H2), the first direction (H1) being non-parallel to the second direction (H2);

the two roll bodies of the first roll stack (21) and the two roll bodies of the second roll stack (22) enclose a space (G) through which the wire passes, which space (G) is variable when the two roll bodies of the first roll stack (21) and/or the two roll bodies of the second roll stack (22) adjust their distance to each other.

2. Wire guide mechanism according to claim 1, wherein the first direction (H1) and the second direction (H2) are perpendicular.

3. The wire guide mechanism of claim 1, wherein:

two roller bodies in the first roller group (21) are arranged in parallel; and/or

Two roller bodies in the second roller group (22) are arranged in parallel.

4. The wire guide mechanism of claim 1, wherein:

the first direction (H1) and the second direction (H2) are perpendicular;

two roller bodies in the first roller set (21) are arranged in parallel;

two roller bodies in the second roller group (22) are arranged in parallel.

5. The wire guide mechanism of claim 1, wherein:

the mounting plate (1) is internally provided with a hollowed opening (10), the opening is composed of a first edge (11), a second edge (12), a third edge (13) and a fourth edge (14), the third edge (13) is arranged at the opposite side of the first edge (11), and the fourth edge (14) is arranged at the opposite side of the second edge (12);

corresponding first convex edges (110), second convex edges (120), third convex edges (130) and fourth convex edges (140) are arranged at the edges of the first edge (11), the second edge (12), the third edge (13) and the fourth edge (14);

one ends of two roller bodies in the first roller group (21) are arranged on the first convex edge (110), and the other ends of the two roller bodies are arranged on the third convex edge (130); one end of two roller bodies in the second roller group is arranged on the second convex edge (120), and the other end is arranged on the fourth convex edge (140).

6. The wire guide mechanism of claim 5, wherein:

the first convex edge (110) and the third convex edge (130) are parallel and are positioned on the same side of the mounting plate (1);

the second convex edge (120) and the fourth convex edge (140) are parallel and are positioned on the other side of the mounting plate (1).

7. The wire guide mechanism of claim 6, wherein:

a first through groove (111) is formed in the first convex edge (110), a third through groove (131) is formed in the third convex edge (130), one end of each of two roller bodies in the first roller set (21) is arranged in the first through groove (111) in a sliding mode, and the other end of each of the two roller bodies in the first roller set is arranged in the third through groove (131) in a sliding mode; and/or

A second through groove (121) is formed in the second convex edge (120), a fourth through groove (141) is formed in the fourth convex edge (140), one end of each of two roller bodies in the second roller set (22) is arranged in the second through groove (121) in a sliding mode, and the other end of each of the two roller bodies in the second roller set is arranged in the fourth through groove (141) in a sliding mode.

8. The wire guide mechanism of claim 6, wherein:

a plurality of holes are formed in the first convex edge (110), a plurality of holes are formed in the third convex edge (130), one ends of two roller bodies in the first roller group (21) are inserted into one of the holes in the first convex edge (110), and the other ends of the two roller bodies are inserted into one of the holes in the third convex edge (130); and/or

The second convex edge (120) is provided with a plurality of holes, the fourth convex edge (140) is provided with a plurality of holes, one end of each of two roller bodies in the second roller group (22) is inserted into one of the holes in the second convex edge (120), and the other end of each of the two roller bodies is inserted into one of the holes in the fourth convex edge (140).

9. A wire guide device, comprising:

a support (3); and

a plurality of wire guides according to any of claims 1~8 disposed on said carriage (3).

10. The wire guide device according to claim 9, wherein the bracket (3) comprises:

a plurality of adjacent folds (31);

the wire guiding mechanisms are arranged on the corresponding bending parts (31).

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