CN212983128U - DTS stranding core machine external pay-off table device - Google Patents

Abstract

The utility model discloses an external pay-off table device of a DTS stranding machine core, which comprises a pay-off table, wherein the pay-off table comprises a pay-off bottom plate and a pay-off rack, the pay-off bottom plate is supported and installed on the pay-off rack, the width of the pay-off bottom plate is consistent with that of a core machine protective housing, and the height of the pay-off bottom plate is consistent with that of the pay-off table of a face machine; at least one side of the paying-off bottom plate is provided with a gathering wire passing wheel; a core machine wire passing wheel assembly A and a core machine wire passing wheel assembly B are mounted on the core machine protective housing, and a core machine wire passing hole is formed in the core machine protective housing; three groups of paying-off devices are integrated on the paying-off bottom plate, the monofilament spool is limited and arranged on the paying-off seat, and monofilaments on the monofilament spool are sequentially wound through the wire guide pipe, the wire guide wheel, the force arm assembly and the double-layer wire passing wheel; and then the yarns are reversed through the yarn-passing wheel assembly of the core machine A by the gathering yarn-passing wheel, pass through the yarn-passing wheel assembly of the core machine B and then pass through the yarn-passing hole of the core machine to enter the core machine for twisting.

Description

DTS stranding core machine external pay-off table device

Technical Field

The utility model belongs to the technical field of the strander, concretely relates to DTS strander core machine pay-off platform device outward.

Background

At present, a DTS stranding machine finished product machine tool is provided with a main machine, an outer over-stranding machine, an electric control cabinet, a face machine, a core machine and an outer paying-off table according to standards, and when the production specification of the machine tool changes according to different production process requirements, all parts of the stranding machine tool can be required to be correspondingly changed. Wherein, the outer paying-off table consists of two parts, one group is configured for the machine tool foundation and can store a wheel of monofilaments; and the other group is a single pay-off table which can store two rounds of monofilaments and connect the two rounds of monofilaments together through a connecting block.

The defects of the prior art are as follows: when the machine tool is used for producing products with specifications of 3922, 3833 and the like, 2 rounds of monofilaments need to be placed in a core machine, 1 round of monofilaments need to be placed on an outer paying-off table for production of the machine tool, and when 3/9 series of specifications are produced, all 3 rounds of monofilaments need to be placed on the outer paying-off table as core wires of cords for production of the machine tool due to different technological requirements of cord twisting. Is not convenient to use and is not beautiful; and because the single wires are separated, the deviation exists between the single wire routing tracks, the single wire paying-off tension is easy to be unstable, and the hidden trouble exists in the quality of the finished product cord thread.

SUMMERY OF THE UTILITY MODEL

The purpose is as follows: in order to overcome the defects existing in the prior art, the utility model provides an external pay-off table device of a DTS stranding machine core. And an integral paying-off structure is adopted to replace a separated type, so that equipment change is reduced, labor is reduced, and the quality hidden danger of a product is reduced.

The utility model adopts the technical proposal that:

the external pay-off table device of the DTS stranding machine core comprises a pay-off table, wherein the pay-off table comprises a pay-off bottom plate and a pay-off rack, the pay-off bottom plate is supported and mounted on the pay-off rack, the width of the pay-off bottom plate is consistent with that of a core machine protective housing, and the height of the pay-off bottom plate is consistent with that of the pay-off table of a face machine; at least one side of the paying-off bottom plate is provided with a gathering wire passing wheel;

the core machine wire passing wheel assembly A and the core machine wire passing wheel assembly B are mounted on the core machine protective housing, and a core machine wire passing hole is formed in the core machine protective housing;

three groups of paying-off devices are integrated on the paying-off bottom plate, and each group of paying-off devices respectively comprises a paying-off seat, a monofilament spool, a wire guide pipe, a wire guide wheel, a force arm assembly and a double-layer wire passing wheel; the monofilament spool is limited and arranged on the pay-off seat, and monofilaments on the monofilament spool are sequentially wound through the wire guide pipe, the wire guide wheel, the force arm assembly and the double-layer wire passing wheel; and then the yarns are reversed through the yarn-passing wheel assembly of the core machine A by the gathering yarn-passing wheel, pass through the yarn-passing wheel assembly of the core machine B and then pass through the yarn-passing hole of the core machine to enter the core machine for twisting.

In some embodiments, the core machine A wire passing wheel assembly and the core machine B wire passing wheel assembly are installed in the middle of the core machine protective cover and have the height close to that of the double-layer wire passing wheel.

In some embodiments, the core machine wire passing hole is opened right behind the B core machine wire passing wheel assembly.

In some embodiments, the line wheel is installed at the upper right corner of the line releasing bottom plate.

In some embodiments, hole sites for fixing the monofilament spool, the wire guide pipe, the wire guide wheel, the force arm assembly and the double-layer wire passing wheel are preset on the paying-off bottom plate.

In some embodiments, the three sets of payoff devices each include: the device comprises a group A pay-off device, a group B pay-off device and a group C pay-off device; the single-wire paying-off device is arranged on the left part, the middle part and the right part of the paying-off bottom plate respectively, and the single-wire paying-off routes of each group of paying-off devices are the same. Furthermore, the A group of pay-off devices comprise an A group of pay-off seats, an A wire guide pipe, an A wire guide wheel, an A force arm assembly and an A double-layer wire passing wheel. The B group of pay-off devices comprise B group pay-off seats, B wire guide pipes, B wire guide wheels, B force arm assemblies and B double-layer wire guide wheels. The C group pay-off device comprises a C group pay-off seat, a C wire guide pipe, a C wire guide wheel, a C force arm assembly and a C double-layer wire guide wheel.

In some embodiments, the pay-off rack is provided with a mounting hole for fixing the pay-off rack to the core machine protective casing through the mounting hole by a screw.

Has the advantages that: the utility model provides a DTS strander core machine unwrapping wire platform device outward compares with prior art, has following advantage:

1. according to the whole width of the core machine protective housing, customizing a corresponding pay-off platform and a corresponding pay-off bottom plate, wherein the width of the pay-off platform and the width of the pay-off bottom plate are consistent with that of the core machine protective housing, and the height of the pay-off platform and the height of the pay-off bottom plate are consistent with that of a face machine pay-off platform, so;

2. the original separated pay-off mode is cancelled, three sets of pay-off devices are integrated on the same pay-off bottom plate and pay-off table, and the change frequency of equipment is reduced;

3. two wire passing wheel assemblies are mounted on the core machine protective housing, one gathering wire passing wheel is mounted on the paying-off bottom plate, and the gathering wire passing wheel assemblies and the wire passing wheel assemblies on the core machine protective housing are matched to form a monofilament walking route, so that three wire passing wheels can conveniently pass wires at the same time, paying-off tension is stabilized, and product quality is improved.

After the novel wire twisting machine is used, when the machine tool needs to be structurally changed, the position of the spool is only required to be adjusted, and the single wires are twisted through the different wire passing wheels to enter the core machine according to the difference of the position of the spool when being wired. This scheme is because of reforming into integral with the unwrapping wire structure of original disconnect-type, and unwrapping wire monofilament tension has obtained stably, has both improved the pleasing to the eye degree of phenomenon equipment, has also improved product quality, and the result of use is very good.

Drawings

FIG. 1 is a schematic structural view of an external pay-off table device of a DTS stranding machine core of the embodiment;

FIG. 2 is a schematic view of the arrangement of the pay-off base plate in the embodiment;

in the figure: the core machine protection device comprises a pay-off rack 1, a mounting hole 2, a core machine protection housing 3, a pay-off bottom plate 4, a pay-off seat 5, an A wire guide pipe 6, a B wire guide pipe 7, a C wire guide pipe 8, an A wire guide wheel 9, a B wire guide wheel 10, a C wire guide wheel 11, an A double-layer wire guide wheel 12, a B double-layer wire guide wheel 13, a C double-layer wire guide wheel 14, an A core machine wire guide wheel assembly 15, a summarizing wire guide wheel 16, a B core machine wire guide wheel assembly 17, an A monofilament 18, a B monofilament 19, a C monofilament 20, a core machine wire guide hole 21, an A force arm assembly 22, a B force arm assembly 23 and.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Unless specifically stated otherwise, the relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present invention. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

Example 1

As shown in fig. 1 and 2, the external pay-off table device of the DTS stranding machine core comprises a pay-off table, wherein the pay-off table comprises a pay-off bottom plate 4 and a pay-off rack 1, the pay-off bottom plate 4 is supported and mounted on the pay-off rack 1, the width of the pay-off bottom plate 4 is consistent with that of a core machine protective housing 3, and the height of the pay-off bottom plate 4 is consistent with that of the pay-off table of a face machine; a gathering wire passing wheel 16 is arranged on at least one side of the paying-off bottom plate 4;

a core machine wire passing wheel assembly A15 and a core machine wire passing wheel assembly B17 are mounted on the core machine protective housing 3, and a core machine wire passing hole 21 is formed in the core machine protective housing 3;

three groups of paying-off devices are integrally arranged on the paying-off bottom plate 4, and each group of paying-off devices respectively comprises a paying-off seat 5, a monofilament spool, a wire guide pipe, a wire guide wheel, a force arm assembly and a double-layer wire passing wheel; the monofilament spool is limited and arranged on the pay-off seat 5, and monofilaments on the monofilament spool are sequentially wound through the wire guide pipe, the wire guide wheel, the force arm assembly and the double-layer wire passing wheel; and then all the yarns are reversed through the gathering yarn guide wheel 16 and the core machine yarn guide wheel assembly 15, pass through the core machine yarn guide wheel assembly 17 and then pass through the core machine yarn guide hole 21 to enter the core machine for twisting.

In some embodiments, as shown in FIG. 1, core A wire passing wheel assembly 15 and core B wire passing wheel assembly 17 are installed in the middle of core machine protection cover 3 and have a height close to that of the double-layer wire passing wheel.

In some embodiments, as shown in FIG. 1, the core barrel wire passing hole 21 opens directly behind the B core barrel wire passing wheel assembly 17.

In some embodiments, the summarizing wire wheel 16 is mounted at the upper right corner of the payoff base plate 4, as shown in fig. 1.

In some embodiments, as shown in fig. 1, the pay-off stand 1 is provided with a mounting hole 2 for fixing the pay-off stand 1 to the core machine protective casing 3 by a screw passing through the mounting hole 2.

In some embodiments, as shown in fig. 1 and 2, the paying-off base plate 4 is pre-provided with hole sites for fixing the monofilament spool, the wire guide tube, the wire guide wheel, the moment arm assembly and the double-layer wire passing wheel.

In some embodiments, as shown in FIG. 2, each of the three sets of payoff devices comprises: the device comprises a group A pay-off device, a group B pay-off device and a group C pay-off device; the single-wire paying-off device is respectively arranged at the left part, the middle part and the right part of the paying-off bottom plate 4, and the single-wire paying-off route of each group of paying-off devices is the same.

The A group of pay-off devices comprise an A group of pay-off seats, an A wire guide pipe 6, an A wire guide wheel 9, an A force arm assembly 22 and an A double-layer wire guide wheel 12.

The B group of pay-off devices comprise B group pay-off seats, B wire guide pipes 7, B wire guide wheels 10, B force arm assemblies 23 and B double-layer wire guide wheels 13.

The C group of pay-off devices comprise C group pay-off seats, C wire guide pipes 8, C wire guide wheels 11, C force arm assemblies 24 and C double-layer wire guide wheels 14.

In some embodiments, the installation process of the external pay-off table device of the DTS stranding machine core of the present invention is as follows:

1) manufacturing a pay-off rack 1, and fixing the pay-off rack on a core machine protective housing 3 through mounting holes 2 preset on two sides by using an M10 screw rod;

2) manufacturing a paying-off bottom plate 4 and fixing the paying-off bottom plate on a paying-off rack 1, wherein a paying-off seat 5, an A wire guide 6, a B wire guide 7, a C wire guide 8, an A wire guide wheel 9, a B wire guide wheel 10, a C wire guide wheel 11, an A double-layer wire guide wheel 12, a B double-layer wire guide wheel 13, a C double-layer wire guide wheel 14, a gathering wire guide wheel 16, an A force arm assembly 22, a B force arm assembly 23 and a C force arm assembly 24 are fixed on the paying-off bottom plate 4 through preset fixing hole positions on the paying-off bottom plate 4;

3) measuring and calculating according to the optimal wiring path on the core machine protective housing 3, wherein the core machine wire passing wheel component A and the gathering wire passing wheel 16 form a single wire wiring path;

4) the line-running positions of the monofilaments A18 are as follows: the A wire guide 6 → A wire guide wheel 9 → A force arm component 22 → A double-layer thread guide wheel 12 → gathering thread guide wheel 16 → A core machine thread guide wheel component 15 → B core machine thread guide wheel component 17 enters the core machine through the core machine thread guide hole 21 for twisting;

5) the wire-running positions of the monofilaments B19 are as follows: the B wire guide pipe 7 → the B wire guide wheel 10 → the B force arm component 23 → the B double-layer wire guide wheel 13 → the gathering wire guide wheel 16 → the A core machine wire guide wheel component 15 → the B core machine wire guide wheel component 17 enters the core machine through the core machine wire guide hole 21 to be twisted;

6) and 20 routing positions of the C monofilaments are as follows: the C wire guide 8 → the C wire guide wheel 11 → the C force arm component 24 → the C double-layer thread guide wheel 14 → the summarizing thread guide wheel 16 → the A core machine thread guide wheel component 15 → the B core machine thread guide wheel component 17 enters the core machine through the core machine thread guide hole 21 for twisting.

Through the improvement, the tension of the paying-off monofilament is stable, the attractiveness of the phenomenon equipment is improved, the product quality is improved, and the using effect is very good.

In the description of the present application, it is to be understood that the terms "central," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered limiting with respect to the scope of the present invention.

The above description is only a preferred embodiment of the present invention, and it should be noted that: for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications can be made, and these improvements and modifications should also be considered as the protection scope of the present invention.

Claims (10)

1. The DTS stranding machine core external pay-off table device comprises a pay-off table and is characterized in that the pay-off table comprises a pay-off bottom plate and a pay-off rack, the pay-off bottom plate is supported and mounted on the pay-off rack, the width of the pay-off bottom plate is consistent with that of a core machine protective housing, and the height of the pay-off bottom plate is consistent with that of the pay-off table of a face machine; at least one side of the paying-off bottom plate is provided with a gathering wire passing wheel;

the core machine wire passing wheel assembly A and the core machine wire passing wheel assembly B are mounted on the core machine protective housing, and a core machine wire passing hole is formed in the core machine protective housing;

three groups of paying-off devices are integrated on the paying-off bottom plate, and each group of paying-off devices respectively comprises a paying-off seat, a monofilament spool, a wire guide pipe, a wire guide wheel, a force arm assembly and a double-layer wire passing wheel; the monofilament spool is limited and arranged on the pay-off seat, and monofilaments on the monofilament spool are sequentially wound through the wire guide pipe, the wire guide wheel, the force arm assembly and the double-layer wire passing wheel; and then the yarns are reversed through the yarn-passing wheel assembly of the core machine A by the gathering yarn-passing wheel, pass through the yarn-passing wheel assembly of the core machine B and then pass through the yarn-passing hole of the core machine to enter the core machine for twisting.

2. The DTS stranding machine core machine external pay-off table device as claimed in claim 1, wherein the core machine A and core machine B wire guide wheel assemblies are mounted in the middle of a core machine protective housing and are close to double-layer wire guide wheels in height.

3. The DTS stranding machine core machine pay-off stand device as claimed in claim 1, wherein the core machine wire passing hole is formed right behind the B core machine wire passing wheel assembly.

4. The DTS strander deck device as claimed in claim 1, wherein the gathering wire wheel is mounted at the upper right corner of the pay-off bottom plate.

5. The DTS strander deck device as claimed in claim 1, wherein hole sites for fixing the monofilament spool, the conduit wheel, the force arm assembly and the double-layer wire passing wheel are preset on the wire releasing bottom plate.

6. The DTS strander deck off-board pay-off device of claim 1, wherein three sets of pay-off devices each comprise: the device comprises a group A pay-off device, a group B pay-off device and a group C pay-off device; the single-wire paying-off device is arranged on the left part, the middle part and the right part of the paying-off bottom plate respectively, and the single-wire paying-off routes of each group of paying-off devices are the same.

7. The DTS strander deck device as claimed in claim 6, wherein the group A pay-off device comprises a group A pay-off base, a wire guide tube A, a wire guide wheel A, a force arm assembly A, and a double-layer wire guide wheel A.

8. The DTS strander deck device as claimed in claim 6, wherein the B group pay-off device comprises a B group pay-off seat, a B wire guide tube, a B wire guide wheel, a B force arm assembly and a B double-layer wire guide wheel.

9. The DTS strander deck device as claimed in claim 6, wherein the C group pay-off device comprises a C group pay-off base, a C wire guide tube, a C wire guide wheel, a C force arm assembly and a C double-layer wire guide wheel.

10. The DTS strander deck device of any one of claims 1-9, wherein the pay-off stand is provided with mounting holes for fixing the pay-off stand to the core machine protective housing by means of the mounting holes penetrated by screws.

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