CN215551408U - Wear-resistant spindle tape base cloth - Google Patents

Abstract

The utility model discloses wear-resistant spindle tape base cloth, relates to the technical field of spinning, and aims to solve the problems that the surface of the spindle tape base cloth is smoother and more smooth along with the increase of the service time, and the base cloth needs to be frequently replaced. The key points of the technical scheme are as follows: the utility model provides a wear-resisting spindle tape base cloth, includes top-down fixed connection's wearing layer one in proper order, antistatic backing and wearing layer two, and the coefficient of friction of wearing layer one and wearing layer two is equal and all is greater than the coefficient of friction of antistatic backing, has the friction piece of increase frictional force between wearing layer one and the wearing layer two, all is equipped with the broken line in advance on wearing layer one, antistatic backing and the wearing layer two, and three broken lines coincidence settings in advance, the broken line in advance sets up along spindle tape base cloth length direction. According to the utility model, the friction piece is additionally arranged in the base cloth, so that the friction coefficient of the surface of the spindle tape base cloth is increased, the pre-folding line is arranged on the spindle tape base cloth, so that both sides of the spindle tape base cloth can be used, and the waste of resources is further reduced.

Description

Wear-resistant spindle tape base cloth

Technical Field

The utility model relates to the technical field of spinning, in particular to wear-resistant spindle tape base cloth.

Background

The spindle tape base cloth is a base fabric for manufacturing spindle tapes, and the spindle tapes are used for driving and connecting two adjacent spindles in a textile machine, so that the spindle tape base cloth has the characteristics of high strength, low stretching, no static electricity and high friction force.

In the use process of the spindle tape base cloth, along with the increase of the use time, the friction force of the spindle tape base cloth is gradually reduced, the spindle tape base cloth slips, the spindle tape base cloth needs to be replaced, and the raw material consumption is large.

Therefore, a new solution is needed to solve this problem.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide the wear-resistant spindle tape base cloth, the friction coefficient of the surface of the spindle tape base cloth is increased by additionally arranging the friction piece in the base cloth, the pre-folding line is arranged on the spindle tape base cloth, the two surfaces of the spindle tape base cloth can be used, and the waste of resources is further reduced.

The technical purpose of the utility model is realized by the following technical scheme: the wear-resistant spindle tape base cloth comprises a first wear-resistant layer, an anti-static layer and a second wear-resistant layer which are sequentially and fixedly connected from top to bottom, wherein the friction coefficients of the first wear-resistant layer and the second wear-resistant layer are equal and are all larger than the friction coefficient of the anti-static layer, a friction piece for increasing the friction force is arranged between the first wear-resistant layer and the second wear-resistant layer, pre-folding lines are arranged on the first wear-resistant layer, the anti-static layer and the second wear-resistant layer, the pre-folding lines are overlapped, and the pre-folding lines are arranged along the length direction of the spindle tape base cloth.

Through adopting above-mentioned technical scheme, the coefficient of friction of wearing layer one and wearing layer two equals to make and is polished smooth back when wearing layer one, wearing layer two can replace wearing layer one and carry out the reutilization, wearing layer one is favorable to realizing its transmission function with wearing layer two's coefficient of friction greatly, the transmission function of spindle tape base cloth is further strengthened to the existence of friction piece, with spindle tape base cloth along folding back in advance the broken line, use wearing layer one to realize transmission function, after wearing layer one is smooth, with spindle tape base cloth along folding back in advance the broken line, can use wearing layer two to continue to realize transmission function.

The utility model is further configured to: the friction piece increases the friction coefficient of the surfaces of the first wear-resistant layer and the second wear-resistant layer.

Through adopting above-mentioned technical scheme, the existence of friction spare increases the roughness on wearing layer one and wearing layer two surfaces to increase wearing layer one and wearing layer two's coefficient of friction.

The utility model is further configured to: the friction pieces are in a convex shape and are respectively fixedly connected to two sides of the anti-static layer and distributed in an array manner.

Through adopting above-mentioned technical scheme, the friction spare that is protruding form makes the spindle tape base cloth be unlikely to block when using, and the even setting of friction spare makes the frictional force on wearing layer one and wearing layer two surfaces even.

The utility model is further configured to: the wear-resistant layer I is formed by weaving a plurality of wear-resistant yarns in a warp and weft mode, and the wear-resistant yarn I is formed by twisting a plurality of aramid fiber I and graphene fiber I.

Through adopting above-mentioned technical scheme, wearing layer one that the longitude and latitude was woven is durable more, and aramid fiber one increases the intensity of wear-resisting yarn one by a wide margin, and the intensity of wear-resisting yarn one is further strengthened to graphene fiber one, and the static function is prevented in the cooperation realization of antistatic yarn simultaneously.

The utility model is further configured to: the anti-static layer is woven by a plurality of anti-static yarns longitude and latitude and is formed, a plurality of electrically conductive fine hair of fixedly connected with on the anti-static yarn, electrically conductive fine hair is worn out wearing layer one and wearing layer two, prevent that static yarn and electrically conductive fine hair are twisted by polyester filament and conductive fiber and are formed.

Through adopting above-mentioned technical scheme, the antistatic backing that the longitude and latitude was woven and is formed is more durable, and electrically conductive fine hair leads the antistatic backing with the electric charge on wearing layer one and the wearing layer two to realize the antistatic of spindle tape base cloth, polyester filament makes the antistatic yarn have certain toughness, and conductive fiber realizes the electrically conductive function of antistatic yarn, and the two twists with the fingers to become antistatic yarn, makes the antistatic yarn have the antistatic function.

The utility model is further configured to: the second wear-resistant layer is formed by weaving a plurality of wear-resistant yarns in a warp-weft mode, and the second wear-resistant yarns are formed by twisting a plurality of aramid fibers and graphene fibers.

Through adopting above-mentioned technical scheme, the wearing layer two that the longitude and latitude was woven is durable more, and aramid fiber two increases the intensity of wear-resisting yarn two by a wide margin, and the intensity of wear-resisting yarn two is further strengthened to graphene fiber two, and the static function is prevented in the cooperation realization of preventing static yarn simultaneously.

The utility model is further configured to: and the first wear-resistant layer and the antistatic layer as well as the second wear-resistant layer and the antistatic layer are in hot-pressing connection.

By adopting the technical scheme, the hot-press connection enables the connection among the first wear-resistant layer, the anti-static layer and the second wear-resistant layer to be tighter, and the layering phenomenon is avoided.

In conclusion, the utility model has the following beneficial effects:

the first wear-resistant layer and the second wear-resistant layer are used for achieving the transmission function of the spindle tape base cloth, the spindle tape base cloth is free of static electricity due to the fact that the anti-static layer is arranged, the friction piece is used for increasing the friction coefficient of the first wear-resistant layer and the second wear-resistant layer, the spindle tape base cloth is secondarily utilized due to the fact that the yarn is pre-folded, the first wear-resistant yarn formed by twisting the aramid fiber I and the graphene fiber I has high strength and has the anti-static function, the second wear-resistant yarn formed by twisting the aramid fiber II and the graphene fiber II has high strength and is matched with the anti-static yarn to achieve the anti-static effect, the anti-static yarn formed by twisting the polyester filament and the conductive fiber enables the anti-static layer to be free of static electricity, and the charges existing on the first wear-resistant layer and the second wear-resistant layer due to the arrangement of the conductive fluff flow to the anti-static layer, and accordingly the wear resistance and the anti-static electricity of the spindle tape base cloth are achieved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a cross-sectional view of a first abrasion resistant yarn of the present invention;

FIG. 4 is a cross-sectional view of an antistatic yarn according to the present invention;

fig. 5 is a cross-sectional view of a second abrasion resistant yarn of the present invention.

In the figure: 1. a first wear-resistant layer; 2. an antistatic layer; 3. a second wear-resistant layer; 4. a friction member; 5. pre-folding lines; 6. wear-resistant yarn I; 7. antistatic yarns; 8. wear-resistant yarn II; 9. aramid fiber I; 10. graphene fiber one; 11. polyester filament yarn; 12. a conductive fiber; 13. aramid fiber II; 14. and a second graphene fiber.

Detailed Description

The utility model is described in detail below with reference to the figures and examples.

Example (b):

a wear-resistant spindle tape base cloth is shown in figure 1 and comprises a first wear-resistant layer 1, an anti-static layer 2 and a second wear-resistant layer 3 which are fixedly connected in sequence from top to bottom, wherein pre-folding lines 5 are arranged on the first wear-resistant layer 1, the anti-static layer 2 and the second wear-resistant layer 3, the three pre-folding lines 5 are arranged in a superposition mode, and the pre-folding lines 5 are arranged along the length direction of the spindle tape base cloth.

As shown in fig. 1 and 2, the friction coefficients of the first wear-resistant layer 1 and the second wear-resistant layer 3 are equal to each other and are greater than the friction coefficient of the antistatic layer 2, the first wear-resistant layer 1 and the antistatic layer 2 and the second wear-resistant layer 3 are connected in a hot-pressing manner, the friction pieces 4 distributed in a plurality of rectangular arrays are fixedly connected to the two sides of the antistatic layer 2, and the friction pieces 4 are convex.

As shown in fig. 2, 3, 4 and 5, the first wear-resistant layer 1 is formed by weaving a plurality of first wear-resistant yarns with 6 warps and wefts, the first wear-resistant yarns 6 are formed by twisting a plurality of first aramid fibers 9 and a plurality of first graphene fibers 10, the second wear-resistant layer 3 is formed by weaving a plurality of second wear-resistant yarns with 8 warps and wefts, the second wear-resistant yarns 8 are formed by twisting a plurality of second aramid fibers 13 and a plurality of second graphene fibers 14, the anti-static layer 2 is formed by weaving a plurality of anti-static yarns with 7 warps and wefts, a plurality of conductive fuzz are fixedly connected to the anti-static yarns 7, the conductive fuzz penetrates out of the first wear-resistant layer 1 and the second wear-resistant layer 3, and the anti-static yarns 7 and the conductive fuzz are formed by twisting polyester filaments 11 and conductive fibers 12.

When manufacturing spindle tape base cloth, twisting two aramid fiber I9 and one graphene fiber I10 into a wear-resistant yarn I6 through a twisting machine, weaving the wear-resistant yarn I6 into a wear-resistant layer I1 through a shuttle loom, twisting two aramid fiber II 13 and one graphene fiber II 14 into a wear-resistant yarn II 8 through the twisting machine, weaving the wear-resistant yarn II 8 into a wear-resistant layer II 3 through the shuttle loom, twisting polyester filament 11 and conductive fiber 12 into an anti-static yarn 7 through the twisting machine, weaving the anti-static yarn 7 into the anti-static yarn 7 through the shuttle loom, bonding a plurality of conductive fuzz on the anti-static yarn 7, weaving the anti-static yarn 7 into an anti-static layer 2 through the shuttle loom, bonding a plurality of friction pieces 4 distributed in a rectangular array on two sides of the anti-static layer 2, and fixedly connecting the wear-resistant layer I1, the anti-static layer 2 and the wear-resistant layer II 3 together through a hot press, and (3) enabling the conductive fluff to penetrate through the first wear-resistant layer 1 and the second wear-resistant layer 3, and pressing out pleats on the surface of the spindle tape base cloth along the length direction of the spindle tape base cloth by using a pleating machine to enable the first wear-resistant layer 1, the anti-static layer 2 and the second wear-resistant layer 3 to be overlapped to form a pre-folding line 5.

When the spindle tape base cloth is used, the spindle tape base cloth is turned over along the pre-folding line 5, the wear-resistant layer I1 is exposed outside, the spindle tape base cloth is made into a ring shape and fixed at a designated position to start working, the friction piece 4 increases the friction coefficient of the wear-resistant layer I1, the aramid fiber I9 and the aramid fiber II 13 enhance the strength of the spindle tape base cloth, the graphene fiber I10 and the graphene fiber II 14 are used for removing charges on the wear-resistant layer I1 and the wear-resistant layer II 3, the polyester filament 11 enhances the strength of the anti-static layer 2, the conductive fiber 12 removes static electricity on the spindle tape base cloth, the conductive fluff guides the charges attached to the wear-resistant layer I1 and the wear-resistant layer II 3 into the anti-static layer 2, so that the spindle tape base cloth is not electrified in friction, after the surface of the wear-resistant layer I1 is smooth, the spindle tape base cloth is taken down, the wear-resistant layer II 3 is exposed along the pre-folding line 5 and continues to be used outside, thereby realizing the secondary use of the fixed-point base cloth and saving resources.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model, and are considered to be within the scope of the utility model.

Claims (7)

1. A wear-resistant spindle tape base cloth is characterized in that: including top-down fixed connection's wearing layer one (1), antistatic backing (2) and wearing layer two (3) in proper order, the coefficient of friction of wearing layer one (1) and wearing layer two (3) is equal and all is greater than the coefficient of friction of antistatic backing (2), there is friction member (4) of increase frictional force between wearing layer one (1) and wearing layer two (3), all be equipped with on wearing layer one (1), antistatic backing (2) and wearing layer two (3) broken line (5), three broken line (5) coincidence setting in advance, broken line (5) set up along spindle tape base cloth length direction in advance.

2. A wear-resistant tape substrate as claimed in claim 1, wherein: the friction piece (4) increases the friction coefficient of the surfaces of the first wear-resistant layer (1) and the second wear-resistant layer (3).

3. A wear-resistant tape substrate as claimed in claim 2, wherein: the friction pieces (4) are convex, and the friction pieces (4) are respectively and fixedly connected to two sides of the anti-static layer (2) and distributed in an array manner.

4. A wear-resistant tape substrate as claimed in claim 1, wherein: wear-resisting layer (1) is woven by a plurality of wear-resisting yarn (6) longitude and latitude and is formed, wear-resisting yarn (6) is twisted by a plurality of aramid fiber (9) and graphene fiber (10) and is formed.

5. A wear-resistant tape substrate as claimed in claim 1, wherein: prevent static layer (2) and weave by a plurality of static yarns (7) warp and weft and form, prevent a plurality of electrically conductive fine hair of fixedly connected with on static yarn (7), wearing layer (1) and wearing layer two (3) are worn out to electrically conductive fine hair, prevent static yarn (7) and electrically conductive fine hair and form by dacron filament (11) and conductive fiber (12) twisting.

6. A wear-resistant tape substrate as claimed in claim 1, wherein: the second wear-resistant layer (3) is formed by weaving a plurality of second wear-resistant yarns (8) in a warp-weft mode, and the second wear-resistant yarns (8) are formed by twisting a plurality of second aramid fibers (13) and a plurality of second graphene fibers (14).

7. A wear-resistant tape substrate as claimed in claim 1, wherein: and the wear-resistant layer I (1) and the anti-static layer (2) as well as the wear-resistant layer II (3) and the anti-static layer (2) are connected in a hot-pressing manner.

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