CN217052591U - Tension adjusting device for weaving electrified belt - Google Patents

Abstract

The utility model discloses a tension adjusting device for weaving electrified belt, which comprises a device bracket, wherein the device bracket is provided with a first tension adjusting component for controlling the tension of chemical fiber and a second tension adjusting component for controlling the tension of conductive metal fiber; wherein the first tension adjustment assembly comprises: the tension buffer rod is horizontally arranged and connected to the device bracket; the first tension regulators are arranged in a plurality, are arranged on the device bracket and are positioned on the same horizontal plane with the tension buffer rods; the yarn collecting plate is fixedly connected to the device bracket and is provided with a plurality of uniformly distributed yarn arranging through holes; the second tension adjusting assembly includes: the fixed shafts are arranged in a plurality of numbers and are horizontally arranged and fixedly connected to the device bracket; the second tension regulators are arranged in a plurality and are arranged and installed on the device bracket; the position of the second tension adjuster is not lower than the position of the fixed shaft.

Description

Tension adjusting device for weaving electrified belt

Technical Field

The application belongs to the technical field of rope production, and particularly relates to a tension adjusting device for weaving a electrified belt.

Background

In the production of woven electrically conductive tapes, tension control problems of different types of fibres are often involved. For example, the electrified belt needs two different materials, namely polyethylene fiber and steel wire fiber, the PE fiber has certain resilience and extensibility, and the steel wire fiber has no extension resilience, so that the requirements on tension and tensile matching degree between the two are very precise. The pan head machine has a plurality of PE fiber yarns with different quantities on a pan head during the production of the ribbon loom, but the balance weight is controlled by iron blocks, so that the problem is that: the PE silk on the pan head is looser and looser, the tight silk of self can be along with the increase of counter weight tension tighter and tighter, and the bending problem can appear. The finished pan head cannot be used under the condition, and the waste silk rate is increased.

SUMMERY OF THE UTILITY MODEL

In view of the above, some embodiments disclose a tension adjusting device for weaving a conductive tape, including a device bracket on which a first tension adjusting assembly for controlling tension of a chemical fiber and a second tension adjusting assembly for controlling tension of a conductive metal fiber are disposed; wherein, the first and the second end of the pipe are connected with each other,

the first tension adjustment assembly includes:

the tension buffer rod is horizontally arranged and connected to the device bracket;

the first tension regulators are arranged in a plurality of numbers, are arranged on the device bracket and are positioned on the same horizontal plane with the tension buffer rods;

the yarn collecting plate is fixedly connected to the device bracket and is provided with a plurality of uniformly distributed yarn arranging through holes;

the second tension adjusting assembly includes:

the fixed shafts are arranged in a plurality of numbers and are horizontally arranged and fixedly connected to the device bracket;

the second tension regulators are arranged in a plurality and are arranged and installed on the device bracket; the position of the second tension adjuster is not lower than the position of the fixed shaft.

Some embodiments disclose a tension adjusting device for weaving a electrifying belt, wherein the number of the first tension adjusters in the first tension adjusting assembly is the same as that of the yarn arranging through holes on the yarn collecting plate.

Some embodiments disclose a tension adjustment device for a braided power strap, the first tension adjuster comprising:

mounting a plate;

the mounting shaft is fixedly connected to the mounting plate;

the two tension adjusting pressure plates are matched with each other and are sleeved on the mounting shaft;

the adjusting nut is arranged at the upper end of the mounting shaft and is in threaded connection with the upper end of the mounting shaft;

the pressure spring is sleeved on the mounting shaft and is positioned between the tension adjusting pressure plate and the adjusting nut;

the two ends of the mounting plate respectively form an upright plate extending upwards, the upright plates are provided with yarn passing through holes, and the two yarn passing through holes are the same in height.

Some embodiments disclose tension adjustment devices for weaving a powered belt, the collector plate in the first tension adjustment assembly being perpendicular to the tension buffer bar.

Some embodiments disclose a tension adjusting device for weaving a electrifying belt, wherein a plurality of first tension adjusters of a first tension adjusting assembly are arranged on the same side of a yarn collecting plate.

Some embodiments disclose a tension adjusting device for weaving electrified belt, a plurality of fixed axles in the second tension adjusting assembly are located on the same side of the second tension adjuster, and are respectively arranged on a plurality of vertical rods arranged at intervals on a device support, the fixed axles arranged on the same vertical rod are distributed at intervals, and the plurality of fixed axles form a multi-row and multi-column array distribution structure in a vertical plane.

Some embodiments disclose tension adjusting devices for weaving a power strip, wherein the distance between the tension adjusting devices and the second tension adjuster is gradually increased, and the setting height is gradually reduced in a plurality of fixed shafts forming the same row in an array structure distributed in multiple rows and multiple columns.

Some embodiments disclose a tension adjusting apparatus for a braided power strip, the number of fixed shafts in the second tension adjusting assembly being the same as the number of second tension adjusters.

Some embodiments disclose a tension adjusting device for a braided energizing belt, the second tension adjuster having the same structure as the first tension adjuster.

Some embodiments disclose a tension adjusting device for a braid energization band, a tension adjusting pressing plate of a first tension adjuster is provided to be freely movable on a mounting shaft.

The utility model provides a tension adjusting device for weaving circular telegram area, utilize mutually independent first tension adjusting part and second tension adjusting part to control chemical fiber and conductive metal fiber's tension respectively, the warping process in weaving circular telegram area technology has generally been reduced, and independent accurate tension control has been realized to the fibre of difference, the process has been simplified, the cost of labor has been reduced, the material loss has been reduced, weaving efficiency has been improved, need have good application prospect to different kinds in the aspect of the meticulous tension control of fibre realization in the technical field such as circular telegram area weaving.

Drawings

FIG. 1 is a schematic view of a tension adjusting device according to some embodiments;

FIG. 2 is a schematic view of a first tension adjustment assembly arrangement disclosed in some embodiments;

FIG. 3 is a schematic view of a second tensioning assembly arrangement according to some embodiments disclosed herein;

FIG. 4 is a schematic illustration of a first tension regulator according to some embodiments;

reference numerals

1 device bracket 11 tension buffer rod

12 first tension adjuster 13 yarn collecting plate

14 chemical fiber reel 21 fixing shaft

22 second tension regulator 23 conductive metal fiber reel

31 vertical rod 120 mounting plate

121 vertical plate 122 yarn passing through hole

123 tension adjusting plate 124 mounting shaft

125 adjusting nut 126 pressure spring

131-row yarn through-hole 10 chemical fiber

20 conductive metal fiber

Detailed Description

The word "embodiment" as used herein, is not intended to limit any embodiment described as "exemplary" to any other embodiment or advantages. Performance index tests in the examples of this application, unless otherwise indicated, were performed using routine experimentation in the art. It is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure.

Unless defined otherwise, technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; other test methods and techniques not specifically mentioned in the present application are those commonly employed by those of ordinary skill in the art.

The terms "substantially" and "approximately" are used herein to describe small fluctuations. For example, they may mean less than or equal to ± 5%, such as less than or equal to ± 2%, such as less than or equal to ± 1%, such as less than or equal to ± 0.5%, such as less than or equal to ± 0.2%, such as less than or equal to ± 0.1%, such as less than or equal to ± 0.05%. Numerical data represented or presented herein in a range format is used merely for convenience and brevity and thus should be interpreted flexibly to include not only the numerical values explicitly recited as the limits of the range, but also to include all the individual numerical values or sub-ranges encompassed within that range. For example, a numerical range of "1 to 5%" should be interpreted to include not only the explicitly recited values of 1% to 5%, but also include individual values and sub-ranges within the indicated range. Thus, included in this numerical range are individual values, such as 2%, 3.5%, and 4%, and sub-ranges, such as 1% to 3%, 2% to 4%, and 3% to 5%, etc. This principle applies equally to ranges reciting only one numerical value. Moreover, such an interpretation applies regardless of the breadth of the range or the characteristics being described.

In this document, including the claims, conjunctions such as "comprising," including, "" carrying, "" having, "" containing, "" involving, "" containing, "and the like are understood to be open-ended, i.e., to mean" including but not limited to. Only the conjunctions "consisting of … …" and "consisting of … …" are closed conjunctions.

In the following detailed description, numerous specific details are set forth in order to provide a better understanding of the present disclosure. It will be understood by those skilled in the art that the present application may be practiced without some of these specific details. In the examples, some methods, means, instruments, apparatuses, etc. known to those skilled in the art are not described in detail in order to highlight the subject matter of the present application.

On the premise of no conflict, the technical features disclosed in the embodiments of the present application may be combined arbitrarily, and the obtained technical solution belongs to the content disclosed in the embodiments of the present application.

The technical details are further illustrated in the following description with reference to the examples and the accompanying fig. 1, 2, 3 and 4.

In some embodiments, a tension adjustment device for weaving a powered strap includes a device support having a first tension adjustment assembly disposed thereon for controlling tension of a chemical fiber, and a second tension adjustment assembly for controlling tension of a conductive metal fiber; the device support is usually made of sectional materials or pipes, processed and assembled, and a horizontal transverse rod-shaped component and a vertical rod-shaped component are arranged in the device support, so that the device support with a stable structure is formed, and other components of the device are conveniently and reasonably distributed and installed on the rod-shaped components to form the tension adjusting device with a reasonable layout.

As an alternative embodiment, as shown in fig. 2, the first tension adjusting assembly includes: a tension buffer rod 11 for buffering the tension of the chemical fiber, which is horizontally arranged and connected on the device bracket 1; the first tension regulators 12 are uniformly spaced, and are arranged on a horizontal cross bar of the device bracket 1, and the horizontal cross bar and the tension buffer rods 11 are parallel to each other and are positioned on the same plane; the yarn collecting plate 13 is fixedly connected to the device bracket 1, and a plurality of uniformly distributed yarn arranging through holes 131 are formed in the yarn collecting plate 13; generally, the distance between adjacent yarn-arranging through holes 131 is the same, and the size and shape of the yarn-arranging through holes 131 are the same; the yarn collecting plate 13 is arranged perpendicular to the horizontal plane so as to evenly distribute the yarn arranging through holes in the vertical plane. Generally, the yarn arranging through holes 131 are arranged on the yarn collecting plate 13 to form a regular array shape, so that a plurality of chemical fibers are orderly arranged without mutual interference, the corresponding relation between the chemical fibers and the first tension regulator can be quickly and accurately determined, and the working efficiency is improved.

The tension adjusting process of the first tension adjusting assembly on the chemical fiber yarns comprises the following steps: arranging a plurality of chemical fiber winding drums 14 below a tension buffer rod 11, leading chemical fiber yarns out of the winding drums, passing through a first tension regulator 12 after bypassing the tension buffer rod 11, and then entering yarn arranging through holes 131 of a yarn collecting plate 13, wherein the plurality of chemical fiber yarns sequentially pass through the plurality of yarn arranging through holes 131 to form an orderly arranged chemical fiber yarn group, and the tension of each chemical fiber yarn can be regulated and controlled by regulating the first tension regulator 12; usually, the tension of each chemical fiber filament is controlled to be the same, so that a plurality of chemical fiber filaments can be controlled to form a chemical fiber filament group with consistent tension. And the chemical fiber yarns which are subjected to tension adjustment and pass through the yarn arranging through holes and are uniformly arranged and have consistent tension enter the next procedure, are combined and arranged with the conductive metal fibers subjected to tension adjustment according to the requirements of the weaving process, and enter a weaving machine for weaving the conductive belt.

As an alternative embodiment, as shown in fig. 3, the second tension adjusting assembly includes: a fixed shaft 21, wherein the fixed shaft 21 is used for arranging the conductive metal fiber reel; the fixed shaft 21 is provided with a plurality of conductive metal fiber reels; a plurality of fixed shafts 21 are horizontally arranged and fixedly connected to the device bracket 1; a plurality of second tension adjusters 22 provided to be mounted on the apparatus frame 1; the position of the second tension adjuster 22 is not lower than the position of the fixed shaft 21. The fixed shafts 21 are usually arranged on a vertical rod 31 of the device bracket 1, the vertical rod 31 is provided with a plurality of vertical rods 31, a plurality of fixed shafts can be arranged on the same vertical rod 31, the plurality of fixed shafts 21 arranged in the way form an array distributed at discrete intervals in a vertical plane, the fixed shafts 21 on the same vertical rod in the array form a column, and the fixed shafts 21 arranged transversely form a row; a plurality of second tension adjusters 22 are provided on the leftmost horizontal cross bar of the device bracket 1 in parallel with the direction in which the fixed shaft 21 is provided; the fixed shafts 21 are all disposed on the right side of the second tension adjuster 22, and the farther away from the second tension adjuster, the lower the position of the fixed shaft 21; the fixed shafts 21 forming the same row are sequentially lowered from left to right, and a certain included angle alpha is formed between the plane where the fixed shafts 21 in the same row are located and the horizontal plane. Typically, the included angle α is acute. In the array formed by the fixed shafts, the heights of the fixed shafts in the same row are sequentially reduced, so that the metal fibers led out from the fixed shafts are orderly and dispersedly arranged, the tension of the metal fibers is favorably adjusted, and mutual interference is prevented.

The process of adjusting the tension of the metal fiber by the second tension adjusting assembly comprises the following steps: arranging metal fiber reels 23 on the fixed shafts 21, leading the metal fibers 20 out of the metal fiber reels 23, and passing the metal fibers into the second tension regulators 22, arranging a plurality of metal fiber reels 23 on the fixed shafts 21 according to the process requirements, passing the second tension regulators 22 in a set sequence, and regulating the tension of each metal fiber 20 by regulating the second tension regulators 22; the metal fibers 20 after tension adjustment are orderly arranged and enter the next procedure, and are arranged and combined with the chemical fibers after tension adjustment according to the weaving process, and enter a weaving machine for weaving a conductive belt.

As an optional embodiment, the number of the first tension regulators is the same as that of the yarn arranging through holes in the yarn collecting plate, and the yarn arranging through holes and the fiber yarns can be accurately matched and positioned in the chemical fiber tension regulating process, so that each fiber can be conveniently controlled and operated.

As an alternative embodiment, as shown in fig. 4, the first tension adjuster includes: the mounting plate 120 is fixedly connected to the mounting plate 120, and two ends of the mounting plate 120 are folded upwards to form two vertical plates 121; the two tension adjusting pressure plates 123 are matched with each other to form a pair of tension adjusting pressure plates 123, the tension adjusting pressure plates 123 are sleeved on the mounting shaft 124, the adjusting nut 125 is arranged at the upper end of the mounting shaft 124 and connected with the upper end of the mounting shaft 124 through threads, and the pressure spring 126 is sleeved on the mounting shaft 124 and located between the tension adjusting pressure plates 123 and the adjusting nut 125; the compression degree of the compression spring 126 is controlled through the adjusting nut 125, the pressure between the two tension adjusting pressure plates 123 is controlled, and the tension of the chemical fiber between the two tension adjusting pressure plates 123 is controlled; wherein, two riser 121 are provided with one through hole 122 of crossing respectively, and two through holes 122 of crossing are highly the same. Generally, the height of the two yarn passing through holes 122 is the same as that of the two tension adjusting pressing plates 123, so that the chemical fiber can be maintained in the same plane after passing through the yarn passing through holes 122 and the two tension adjusting pressing plates 123, and the fiber bending damage can be prevented.

The tension control and regulation process of the first tension regulator on the chemical fiber comprises the following steps:

the chemical fiber 10 is arranged to sequentially pass through the first yarn passing through hole 122, the space between the tension adjusting pressing plates 123 and the second yarn passing through hole 122, the chemical fiber 10 is pressed between the two tension adjusting pressing plates 123, so that tension applied to the chemical fiber 10 is formed, when the tension needs to be adjusted, the compression degree of the pressure spring 126 is adjusted by screwing the adjusting nut 125, the pressure between the two tension adjusting pressing plates 123 is further changed, and the tension adjustment of the chemical fiber 10 is realized.

As an alternative embodiment, in the first tension adjuster, the tension adjusting pressure plate is arranged to move freely on the mounting shaft, so as to prevent the tension adjusting pressure plate from being hindered from moving on the mounting shaft, and the tension of the fibers can be accurately controlled by the compression spring.

As an alternative embodiment, the mounting shaft of the first tension regulator is provided with a yarn passing through hole which is vertical to the axial direction of the mounting shaft, and the height of the yarn passing through hole is the same as that of the yarn passing through hole on the vertical plate. When chemical fibers are arranged in the first tension regulator, the chemical fibers sequentially pass through the yarn passing through hole in the vertical plate on one side, the yarn passing through hole in the mounting shaft and the yarn passing through hole in the vertical plate on the other side, so that the fibers can be kept on the same straight line in the same plane, and the fibers are prevented from being bent and damaged.

As an alternative embodiment, in the tension adjusting device for weaving the electrified belt, a plurality of first tension adjusters are arranged on the same side of the yarn collecting plate. The tension adjusting device is generally arranged at the edge area of the device bracket, the first tension adjuster is arranged at the main body area of the device bracket so as to complete the tension adjusting process of the chemical fibers on the device bracket, and the tension-adjusted chemical fibers after being arranged and bundled by the yarn collecting plate can orderly enter a subsequent process to be matched and coordinated with the subsequent process.

As an alternative embodiment, in the tension adjusting device for weaving the power-on belt, the plurality of fixing shafts are located on the same side of the second tension adjuster, and are respectively arranged on the plurality of vertical rods arranged at intervals on the device support, the fixing shafts arranged on the same vertical rod are distributed at intervals, and the plurality of fixing shafts form an array structure distributed in multiple rows and multiple columns in a vertical plane.

In the tension adjusting device for weaving the electrified belt, the distance between the fixed shafts forming the same row in the multi-row and multi-column distribution structure and the second tension adjuster is gradually increased, and the setting height is gradually reduced.

As an alternative embodiment, in the tension adjusting device for weaving the electrifying belt, the number of the fixing shafts is the same as that of the second tension adjusters.

As an alternative embodiment, in the tension adjusting device for weaving the electrifying belt, the second tension adjuster has the same structure as the first tension adjuster.

The tension adjusting device for weaving electrified belt disclosed by the embodiment of the application utilizes mutually independent first tension adjusting component and second tension adjusting component to control the tension of chemical fiber and conductive metal fiber respectively, the warping process in the technology of weaving electrified belt has been reduced usually, and independent and accurate tension control has been realized to different fibers, the process is simplified, the labor cost is reduced, the material loss is reduced, the weaving efficiency is improved, and the fine tension control aspect of different types to the fiber is realized to the technical field such as electrified belt weaving has a good application prospect.

The technical solutions and the technical details disclosed in the embodiments of the present application are only examples to illustrate the inventive concept of the present application, and do not constitute limitations to the technical solutions of the present application, and all conventional changes, substitutions, or combinations made to the technical details disclosed in the present application have the same inventive concept as the present application, and are within the protection scope of the claims of the present application.

Claims (10)

1. The tension adjusting device for weaving the electrified belt is characterized by comprising a device bracket, wherein a first tension adjusting component for controlling the tension of chemical fibers and a second tension adjusting component for controlling the tension of conductive metal fibers are arranged on the device bracket; wherein, the first and the second end of the pipe are connected with each other,

the first tension adjustment assembly includes:

the tension buffer rod is horizontally arranged and connected to the device bracket;

the first tension regulators are arranged in a plurality, are arranged on the device bracket and are positioned on the same horizontal plane with the tension buffer rods;

the yarn collecting plate is fixedly connected to the device bracket and is provided with a plurality of uniformly distributed yarn arranging through holes;

the second tension adjustment assembly includes:

the fixed shafts are arranged in a plurality and are horizontally arranged and fixedly connected to the device bracket;

the second tension regulators are arranged in a plurality and are arranged and installed on the device bracket; the position of the second tension regulator is not lower than that of the fixed shaft.

2. A tension adjusting device for weaving a power strip according to claim 1, characterized in that the number of the first tension adjusters is the same as the number of the yarn arranging through holes on the yarn collecting plate.

3. The tension adjustment device for weaving a power strip of claim 1, wherein the first tension adjuster comprises:

mounting a plate;

the mounting shaft is fixedly connected to the mounting plate;

the two tension adjusting pressure plates are matched with each other and are sleeved on the mounting shaft;

the adjusting nut is arranged at the upper end of the mounting shaft and is in threaded connection with the upper end of the mounting shaft;

the pressure spring is sleeved on the mounting shaft and is positioned between the tension adjusting pressure plate and the adjusting nut;

the two end parts of the mounting plate are respectively provided with an upright plate extending upwards, the upright plates are provided with yarn passing through holes, and the two yarn passing through holes are the same in height.

4. The tension adjustment device for weaving a electrified belt according to claim 1, characterized in that the yarn collecting plate is perpendicular to the tension buffer bar.

5. A tension adjustment device for a knitted energized belt according to claim 1, characterized in that a plurality of the first tension adjusters are disposed on the same side of the yarn collecting plate.

6. A tension adjusting device for weaving a power transmission belt according to claim 1, wherein a plurality of fixing shafts are located on the same side of the second tension adjuster, and are respectively disposed on a plurality of spaced vertical rods of a device bracket, the fixing shafts disposed on the same vertical rod are spaced apart by a set distance, and the plurality of fixing shafts form an array structure in a vertical plane in multiple rows and multiple columns.

7. The tension adjustment device for weaving a power transmission belt according to claim 6, wherein among the plurality of fixed shafts forming the same row in the array structure distributed in a plurality of rows and a plurality of columns, the distance from the second tension adjuster gradually increases, and the setting height gradually decreases.

8. The tension adjustment device for weaving a power strip of claim 1, wherein the number of the fixed shafts is the same as the number of the second tension adjusters.

9. A tension adjustment device for a braided power strap as claimed in claim 1, wherein the second tension adjuster has the same structure as the first tension adjuster.

10. A tension adjustment device for a braided power strap of claim 3, wherein the tension adjustment pressure plate of the first tension adjuster is arranged to move freely on the mounting shaft.

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