CN115534429A

CN115534429A - Anti-slip bed sheet fabric and processing method thereof

Info

Publication number: CN115534429A
Application number: CN202211199728.2A
Authority: CN
Inventors: 王晓东; 沈林梅; 周建芬
Original assignee: Suzhou Jintu Textile Technology Co ltd
Current assignee: Suzhou Jintu Textile Technology Co ltd
Priority date: 2022-09-29
Filing date: 2022-09-29
Publication date: 2022-12-30

Abstract

The invention discloses anti-slip bed sheet fabric and a processing method thereof, relates to the technical field of fabric, and aims to solve the problem that the traditional bed sheet fabric is easy to slip in the using process. The key points of the technical scheme are as follows: including fixed top layer, anti-skidding sandwich layer and anti-skidding bottom in proper order, run through a plurality of anti-skidding grooves of seting up the array and distributing along its thickness direction on the anti-skidding bottom, be formed with anti-skidding piece between two adjacent anti-skidding grooves, it has a plurality of anti-skidding traces to deviate from its length direction array distribution on the anti-skidding piece of anti-skidding sandwich layer one side, the bottom of anti-skidding piece is equipped with the groove of bending rather than the length is unanimous. The ramie fiber is arranged in the invention, and the anti-slip performance of the whole structure is enhanced by utilizing the characteristics of bacteriostasis, ventilation and rough surface of the ramie fiber.

Description

Anti-slip bed sheet fabric and processing method thereof

Technical Field

The invention relates to the technical field of fabrics, in particular to an anti-slip bed sheet fabric and a processing method thereof.

Background

The fabric is a flat soft piece block formed by connecting fine and flexible objects through crossing and winding knots.

The fabric products in daily life are various in types and closely related to the life of people, the fabric products are small enough to be clothes such as socks and clothes, the fabric products are large enough to be various home textiles such as curtains, quilts and bed sheets, the bed sheet is usually paved on the bed and used for supporting, blocking dirt and decorating, and has the characteristics of decoration and practicability, but the traditional bed sheet still has some problems in the using process, one of the problems is that the bed sheet is easy to slide in the using process and further has the phenomenon of wrinkles, particularly the bed sheet is easy to slide when being paved on smooth articles such as a summer sleeping mat, the user is required to often finish and pave the bed sheet, meanwhile, the situations that people with partial bad intestines and stomach are cooled and belly pulled due to the fact that the summer sleeping mat is in direct contact with the skin of the user can occur, the property of the bed sheet is usually determined by the fabric for manufacturing the bed sheet, and therefore, the fabric structure with a good anti-sliding function is necessary to be arranged.

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

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an anti-sliding bed sheet fabric and a processing method thereof, and the aim of improving the overall anti-sliding performance of the fabric is achieved through the arrangement of the structure.

The technical purpose of the invention is realized by the following technical scheme: this anti-skidding sheet fabric, including fixed top layer, anti-skidding sandwich layer and the anti-skidding bottom in proper order, run through a plurality of anti-skidding grooves of seting up the array distribution on the anti-skidding bottom along its thickness direction, adjacent two be formed with anti-skidding piece between the anti-skidding groove, deviate from anti-skidding sandwich layer one side it has a plurality of anti-skidding traces to distribute along its length direction array on the anti-skidding piece, the bottom of anti-skidding piece is equipped with the groove of bending rather than the length is unanimous.

The invention is further configured to: the top layer is formed by plain weaving of breathable yarns, the anti-slip core layer is formed by plain weaving of first anti-slip yarns, the anti-slip bottom layer is formed by plain weaving of second anti-slip yarns, the breathable yarns are formed by twisting bamboo charcoal fibers, the first anti-slip yarns are formed by twisting nylon fibers and ramie fibers, and the second anti-slip yarns are formed by twisting nylon fibers and nylon profiled fibers with plum blossom-shaped cross sections.

The invention is further configured to: the processing method of the anti-slip bed sheet fabric is used for the production of the anti-slip bed sheet fabric and comprises the following steps,

the method comprises the following steps: mounting the materials of the top layer, the anti-skid core layer and the anti-skid bottom layer on fabric compounding equipment;

step two: processing an anti-slip groove on the anti-slip bottom layer by using fabric compounding equipment and forming an anti-slip piece;

step three: utilizing fabric composite equipment to hot-press anti-skid marks on the anti-skid piece;

step four: pressing a bending groove at the hot-pressing position on the anti-skid piece by using fabric composite equipment;

step five: guiding the materials of the top layer, the anti-skid core layer and the anti-skid bottom layer which are processed in the step four to approach each other;

step six: sewing the materials of the top layer, the anti-skid core layer and the anti-skid bottom layer together by using fabric compounding equipment;

step seven: and (4) rolling the top layer, the anti-skid core layer and the anti-skid bottom layer which are processed in the sixth step by using fabric compounding equipment.

The invention is further configured to: fabric equipment complex includes the equipment body, be equipped with material loading portion, processing portion, guide portion, sewing up portion and rolling portion in proper order along the direction of delivery of material on the equipment body, rolling portion includes the wind-up roll of connecting on first support piece with equipment body fixed connection's first support piece and rotation, fixedly connected with drives wind-up roll pivoted driving motor on the first support piece, sewing up the portion including with equipment body fixed connection's second support piece and set up a plurality of sewing machines on second support piece, guide portion includes and connects a plurality of guide rollers on the third support piece with equipment body fixed connection's third support piece and rotation.

The invention is further configured to: the material loading portion includes the fourth support piece with equipment body fixed connection, a plurality of material loading troughs have been seted up on the fourth support piece, can dismantle in the material loading trough and be connected with the material roller, a plurality of first extensible members of fixedly connected with on the fourth support piece, the drive end fixedly connected with air brake of first extensible member, set up the air brake that supplies the material roller to penetrate on the air brake, the drive end of first extensible member can drive the cell wall and the material roller counterbalance of air brake.

The invention is further configured to: the processing portion comprises a fifth support piece fixedly connected with the equipment body, a first guide plate, a second guide plate and a third guide plate are fixedly connected onto the fifth support piece from bottom to top in sequence, a plurality of second expansion pieces and a plurality of sliding plates are fixedly connected onto the fifth support piece from bottom to top, the sliding plates are arranged at the bottom ends of the second expansion pieces, a blanking portion is arranged at the bottom end of each sliding plate and comprises a plurality of blanking pieces used for blanking out an anti-skidding piece and an anti-skidding groove, the blanking pieces are hollow and are provided with openings at the bottom, a blanking groove corresponding to the position of the blanking piece and used for enabling waste materials to fall is vertically arranged on the third guide plate in a penetrating mode, supporting rods are symmetrically arranged between the third guide plate and the second guide plate and are connected with a plurality of rotating rollers in a rotating mode, one end of each rotating roller is connected with a feeding belt of which penetrates out of the fifth support piece in a transmission mode, and a pumping piece for pumping air into the blanking pieces is fixedly connected onto the equipment body.

The invention is further configured to: the improved anti-skid device is characterized in that a plurality of first placing grooves are formed in the top surface of the third guide plate, elastic pieces are fixedly connected in the first placing grooves, a material pressing plate is fixedly connected with the top end of each elastic piece, the top surface of each elastic piece is flush with the third guide plate, a plurality of second placing grooves corresponding to the first placing grooves in position are formed in the bottom surface of the sliding plate, first electric heating pieces are fixedly connected in the second placing grooves, a plurality of hot pressing teeth used for pressing out anti-skid marks are fixedly connected on the bottom surface of each first electric heating piece, a abdicating groove is formed in the top surface of the third guide plate, a plurality of V-shaped plates are fixedly connected to the inner bottom surface of the abdicating groove, the tops of the V-shaped plates are lower than the top surface of the third guide plate, second electric heating pieces corresponding to the positions of the V-shaped plates are fixedly connected to the bottom surface of the sliding plate, the cross sections of the second electric heating pieces in the width direction are arranged to be isosceles triangles, the vertex angles of the V-shaped plates are located at the bottoms, and the concave portions of the V-shaped plates penetrate upwards.

In conclusion, the invention has the following beneficial effects:

run through a plurality of anti-skidding grooves of seting up array distribution along its thickness direction on the anti-skidding bottom, the anti-skidding groove of formation makes the surface of anti-skidding bottom rougher, be formed with anti-skidding piece between two adjacent anti-skidding grooves, it has a plurality of anti-skidding traces to deviate from on the anti-skidding piece of anti-skidding sandwich layer one side along its length direction array distribution, anti-skidding trace forms through the mode of hot pressing, make the roughness of anti-skidding piece bigger through the anti-skidding trace that forms, and then make the state that the sheet fabric was placed on the bed level and more smooth stable, the bottom of anti-skidding piece is equipped with the bending groove rather than length uniformity, the bending groove is in the intermediate position of anti-skidding piece width direction, the bending groove forms through the mode of hot pressing, utilize the bending groove that sets up to realize the further bending of anti-skidding piece, and then anti-skidding piece can be under the effect of hot pressing groove towards one side bending deformation in hot pressing groove, further increase the crooked and protruding degree of anti-skidding piece bottom, further strengthen the stability that the fabric wholly placed.

Drawings

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

FIG. 2 is an enlarged view of FIG. 1 at A;

FIG. 3 is a section view of an air-permeable yarn of the present invention;

FIG. 4 is a section view of a first non-slip yarn of the present invention;

FIG. 5 is a section view of a second non-slip yarn according to the present invention;

FIG. 6 is a schematic view of the construction of the fabric compositing apparatus of the present invention;

FIG. 7 is an enlarged view at B in FIG. 6;

FIG. 8 is a cross-sectional view of the fabric compounding device of the present invention;

fig. 9 is an enlarged view at C in fig. 8.

In the figure: 1. a top layer; 2. an anti-slip core layer; 3. an anti-slip bottom layer; 4. an anti-slip groove; 5. an anti-slip member; 6. preventing skid marks; 7. bending the groove; 8. a breathable yarn; 9. a first non-slip yarn; 10. a second non-slip yarn; 11. bamboo charcoal fiber; 12. nylon fiber; 13. ramie fibers; 14. nylon profiled fiber; 15. an apparatus body; 16. a first support member; 17. a wind-up roll; 18. a first drive motor; 19. a second support member; 20. a sewing machine; 21. a third support member; 22. a material guide roller; 23. a fourth support member; 24. a feeding trough; 25. a material roller; 26. a first telescoping member; 27. a speed reduction plate; 28. a deceleration tank; 29. a fifth support member; 30. a first material guide plate; 31. a second material guide plate; 32. a third material guide plate; 33. a second telescoping member; 34. a sliding plate; 35. blanking parts; 36. a charging chute; 37. a support bar; 38. a feed belt; 39. a pumping element; 40. a first placing groove; 41. an elastic member; 42. a material pressing plate; 43. a second placing groove; 44. a first electric heating member; 45. hot pressing teeth; 46. a yielding groove; 47. a V-shaped plate; 48. a second electric heating element.

Detailed Description

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

This anti-skidding bed sheet fabric, as shown in fig. 1 and fig. 2, including looping through the top layer 1 that the mode of yarn sewing realized fixed connection, anti-skidding sandwich layer 2 and anti-skidding bottom 3, run through a plurality of anti-skidding grooves 4 of seting up array distribution along its thickness direction on the anti-skidding bottom 3, the anti-skidding groove 4 that forms makes the surface of anti-skidding bottom 3 rougher, be formed with anti-skidding piece 5 between two adjacent anti-skidding grooves 4, it has a plurality of anti-skidding traces 6 to run through its length direction array distribution on the anti-skidding piece 5 that deviates from anti-skidding sandwich layer 2 one side, anti-skidding trace 6 forms through the mode of hot pressing, make anti-skidding piece 5's roughness bigger through the anti-skidding trace 6 that forms, and then make the state that the bed sheet fabric placed on the bed more level and more stable, the bottom of anti-skidding piece 5 is equipped with its length unanimous bending groove 7, bending groove 7 locates the intermediate position in anti-skidding piece 5 width direction, bending groove 7 forms through the mode of hot pressing, utilize the bending groove 7 that sets up to realize further pressing the anti-skidding piece 5, and further bending degree of the increase of the bending of anti-skidding piece 5, further degree of bending and the deformation of the effect of hot pressing groove, further increase of the fabric, the bottom of the fabric is further bending degree of the bending.

As shown in fig. 1 to 5, the top layer 1 is formed by plain weaving of breathable yarns 8, the stability of the top layer 1 and the whole structure is enhanced by using the characteristic of stable structure of plain weave, the breathability and comfort of the top layer 1 and the whole fabric are enhanced by using the characteristic of good breathability of the breathable yarns 8, the anti-slip core layer 2 is formed by plain weaving of first anti-slip yarns 9, the anti-slip performance of the anti-slip core layer 2 and the whole fabric is enhanced by using the characteristic of good anti-slip performance of the first anti-slip yarns 9, the anti-slip bottom layer 3 is formed by plain weaving of second anti-slip yarns 10, the anti-slip stability of the whole structure and the anti-slip bottom layer 3 is enhanced by using the characteristic of good anti-slip performance of the second anti-slip yarns 10, the breathable yarns 8 are formed by twisting bamboo charcoal fibers 11 by a twisting machine, the comfort in use of the whole structure is enhanced by using the characteristics of moisture absorption, breathability, bacteriostasis, warmness in winter and coolness in summer of the bamboo charcoal fibers 11, the first anti-slip yarns 9 are formed by twisting nylon fibers 12 and ramie fibers 13 by twisting machine, the characteristic of high structural strength of the nylon fibers 12 are enhanced by twisting machine, meanwhile, the characteristics of wear resistance, air permeability and rough surface of the ramie fiber 13 are utilized to increase the friction coefficient of the surface of the anti-skid core layer 2, the anti-skid performance of the whole structure is better, the second anti-skid yarn 10 is formed by twisting the nylon fiber 12 and the nylon profiled fiber 14 with the cross section in a plum blossom shape through a twisting machine, the long grooves on the surface of the nylon profiled fiber 14 are utilized to ensure that the formed second anti-skid yarn 10 has good air permeability, meanwhile, the anti-skid and anti-sliding performance of the whole structure is further enhanced by utilizing the characteristic of rough surface of the nylon profiled fiber 14.

The processing method of the anti-slip sheet fabric is used for the production of the anti-slip sheet fabric, as shown in figures 1-9, and comprises the following steps,

the method comprises the following steps: mounting the materials of the top layer 1, the anti-skid core layer 2 and the anti-skid bottom layer 3 on a fabric compounding device;

step two: processing an anti-skid groove 4 on the anti-skid bottom layer 3 by using fabric compound equipment and forming an anti-skid piece 5;

step three: hot-pressing an anti-skid mark 6 on the anti-skid member 5 by using fabric compounding equipment;

step four: bending the groove 7 at the hot-pressing position on the anti-skid member 5 by using fabric compounding equipment;

step five: guiding the materials of the top layer 1, the anti-skid core layer 2 and the anti-skid bottom layer 3 which are processed in the fourth step to approach each other;

step six: sewing the materials of the top layer 1, the anti-skid core layer 2 and the anti-skid bottom layer 3 together by using fabric compounding equipment;

step seven: and (3) rolling the top layer 1, the anti-skid core layer 2 and the anti-skid bottom layer 3 which are processed in the step six by using fabric compounding equipment.

As shown in fig. 6 to 9, the fabric composite apparatus includes an apparatus body 15, a feeding portion, a processing portion, a guiding portion, a sewing portion and a winding portion are sequentially disposed on the apparatus body 15 along a material delivery direction, the winding portion includes a first support member 16 fixedly connected to the apparatus body 15 by welding and a winding roller 17 rotatably connected to the first support member 16, a first driving motor 18 driving the winding roller 17 to rotate is fixedly connected to the first support member 16, the first driving motor 18 is set as a servo motor, the first driving motor 18 rotates to drive the winding roller 17 fixedly connected to an output shaft thereof, the winding roller 17 rotates to stably wind the material, the sewing portion includes a second support member 19 fixedly connected to the apparatus body 15 by welding and a plurality of sewing machines 20 disposed on the second support member 19, the second support member 19 is used to stably support the sewing machines 20, the sewing machines 20 disposed can stably sew and compound the material, the guiding portion includes a third support member 21 fixedly connected to the apparatus body 15 by welding and a plurality of sewing machines 22 disposed on the second support member, and the sewing portions can stably guide the sewing materials, and the sewing materials.

As shown in fig. 6-9, the feeding portion includes a fourth support 23 fixedly connected to the device body 15 by welding, a plurality of feeding slots 24 are provided on the fourth support 23, a material roller 25 is detachably connected to the feeding slots 24, the material roller 25 penetrates into and out of the feeding slots 24 to realize stable feeding and discharging processes of the material, a plurality of first expansion pieces 26 are fixedly connected to the fourth support 23 by bolts, the first expansion pieces 26 are arranged as electric telescopic rods, a decelerating plate 27 is fixedly connected to the driving end of each first expansion piece 26 by welding, a decelerating slot 28 for the material roller 25 to penetrate is provided on the decelerating plate 27, the driving end of each first expansion piece 26 can drive the slot wall of the decelerating slot 28 to abut against the material roller 25, the slot wall of the decelerating slot 28 is driven by the first expansion piece 26 to abut against the material roller 25, and under the effect of friction force between the decelerating plate 27 and the material roller 25, so that the wind-up roller 17 can be in a tightened state when the material, and further ensure smooth and steady material compounding process.

As shown in fig. 6-9, the processing portion includes a fifth support 29 fixedly connected to the apparatus body 15 by welding, a first guide plate 30, a second guide plate 31 and a third guide plate 32 are fixedly connected to the fifth support 29 from bottom to top, under the guiding action of the first guide plate 30, the second guide plate 31 and the third guide plate 32, the stable support and guiding action on the material are realized, and the stable realization of the material compounding process is ensured, a plurality of second expansion pieces 33 are fixedly connected to the fifth support 29 on the top of the third guide plate 32 by bolt locking, the second expansion pieces 33 are provided as electric telescopic rods, the bottom ends of the plurality of second expansion pieces 33 are fixedly connected with sliding plates 34 by welding, the electric telescopic rods move to drive the sliding plates 34 to move, so as to realize stable driving of the sliding plates 34, the bottom end of the sliding plates 34 is provided with a blanking portion, the blanking portion includes a plurality of blanking pieces 35 for blanking 5 and anti-skid grooves 4, the blanking pieces 35 are internally and open at the bottom, a blanking portion corresponding to the blanking position of the blanking piece 35 is provided for smooth blanking, and a blanking chute for stably discharging the blanking, and a blanking chute is provided for blanking, and a blanking chute for stably discharging the blanking process, and a blanking portion for stably discharging the blanking material is provided on the blanking portion, and a blanking chute 35.

As shown in fig. 6-9, support rods 37 are fixedly connected between the third material guide plate 32 and the second material guide plate 31 by welding and symmetrically arranged, a plurality of rotating rollers are rotatably connected between the support rods 37, a feed belt 38 with one end penetrating through the fifth support member 29 is connected to the plurality of rotating rollers in a transmission manner, the feed belt 38 is used for stably supporting the material falling from the blanking slot 36, the support rods 37 are used for stably supporting the rotating rollers, the support rods 37 are used for stably supporting the feed belt 38, a driving motor for driving one of the plurality of rotating rollers is fixedly connected to the support rods 37, the rotating rollers are driven by the driving of the motor to rotate, the feed belt 38 is driven by the rotating rollers to move, the feed belt 38 drives the waste material falling above the feed belt, an air pump member 39 for pumping air into the blanking member 35 is fixedly connected to the equipment body 15, the air pump member 39 is set as an air pump, an air outlet end of the air pump is communicated with the inner sides of the plurality of blanking members 35 through a plurality of air pipes, and the waste material can be blocked in the blanking member 35 under the blanking effect of blanking by the flowing air generated by the air pump member 39, and the blanking member 35, thereby ensuring the effect of blanking treatment of the waste material.

As shown in fig. 6-9, a plurality of first placing slots 40 are formed on the top surface of the third material guiding plate 32, an elastic member 41 is fixedly connected in the first placing slots 40, a material pressing plate 42 whose top surface is flush with the third material guiding plate 32 is fixedly connected to the top end of the elastic member 41, the elastic member 41 is configured as a spring, a plurality of second placing slots 43 corresponding to the first placing slots 40 are formed on the bottom surface of the sliding plate 34, a first electric heating member 44 is fixedly connected in the second placing slots 43, a plurality of hot pressing teeth 45 for pressing out the anti-skid traces 6 are integrally formed on the bottom surface of the first electric heating member 44, when the hot pressing teeth 45 abut against the material and the pressing plate 42, the pressing plate 42 is pushed to slide upwards, the pressing plate 42 moves to realize the extrusion deformation of the elastic part 41, the elastic force generated by the elastic deformation elastic part 41 pushes the material to tightly press the hot pressing teeth 45, so as to ensure that the hot pressing process and effect of the hot pressing teeth 45 are more stable, when the hot pressing teeth 45 are used for hot pressing, the first driving motor 18 is stopped for a period of time to provide time for the hot pressing process of the hot pressing teeth 45, the top surface of the third material guiding plate 32 is provided with an abdicating groove 46, the inner bottom surface of the abdicating groove 46 is fixedly connected with a plurality of V-shaped plates 47 with the top ends lower than the top surface of the third material guiding plate 32, the bottom surface of the sliding plate 34 is fixedly connected with second electric heating elements 48 corresponding to the V-shaped plates 47, heat is generated when the second electric heating elements 48 are electrified, the section shape along the width direction of the second electric heating elements 48 is set to be an isosceles triangle, the vertex angle of the isosceles triangle is positioned at the bottom, the concave parts of the V-shaped plates 47 face upwards and are used for the second electric heating elements 48 to penetrate, when the second electric heating element 48 abuts against the V-shaped plate 47, stable hot pressing of the material between the second electric heating element and the V-shaped plate can be realized, so that the structure of the bending groove 7 and the structure and function of the anti-slip element 5 are more stable.

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

Claims

1. The utility model provides an antiskid sheet fabric that moves, includes fixed top layer (1), antiskid sandwich layer (2) and antiskid bottom (3) in proper order, its characterized in that: the anti-skid core layer is characterized in that a plurality of anti-skid grooves (4) which are distributed in an array mode are formed in the anti-skid bottom layer (3) in a penetrating mode along the thickness direction of the anti-skid bottom layer, anti-skid parts (5) are formed between the anti-skid grooves (4) in a neighboring mode, one side of the anti-skid core layer (2) deviates from the anti-skid parts (5) and are distributed with a plurality of anti-skid marks (6) along the length direction of the anti-skid parts in an array mode, and bending grooves (7) which are identical to the anti-skid parts in length are formed in the bottom of the anti-skid parts (5).

2. The slip-resistant bed sheet fabric of claim 1, wherein: the top layer (1) is formed by plain weaving of breathable yarns (8), the anti-skidding core layer (2) is formed by plain weaving of first anti-skidding yarns (9), the anti-skidding bottom layer (3) is formed by plain weaving of second anti-skidding yarns (10), the breathable yarns (8) are formed by twisting of bamboo charcoal fibers (11), the first anti-skidding yarns (9) are formed by twisting of nylon fibers (12) and ramie fibers (13), and the second anti-skidding yarns (10) are formed by twisting of nylon fibers (12) and nylon profiled fibers (14) with plum blossom-shaped cross sections.

3. A method of processing a slip-resistant sheet fabric for use in the production of a slip-resistant sheet fabric according to any one of claims 1-2, characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the method comprises the following steps: mounting materials of the top layer (1), the anti-skid core layer (2) and the anti-skid bottom layer (3) on fabric compounding equipment;

step two: processing an anti-skid groove (4) on the anti-skid bottom layer (3) by using fabric compound equipment and forming an anti-skid piece (5);

step three: hot-pressing an anti-skid mark (6) on the anti-skid piece (5) by using fabric compound equipment;

step four: hot-pressing a bending groove (7) on the anti-skid piece (5) by using fabric composite equipment;

step five: guiding the materials of the top layer (1), the anti-skid core layer (2) and the anti-skid bottom layer (3) which are processed in the fourth step to approach each other;

step six: sewing the materials of the top layer (1), the anti-skid core layer (2) and the anti-skid bottom layer (3) together by using fabric compounding equipment;

step seven: and (3) rolling the top layer (1), the anti-skid core layer (2) and the anti-skid bottom layer (3) which are processed in the step six by using fabric compounding equipment.

4. The method of processing an anti-slip bed sheet fabric as claimed in claim 3, wherein: fabric equipment complex includes the equipment body (15), be equipped with material loading portion, processing portion, guide portion, portion of sewing up and rolling portion in proper order along the direction of delivery of material on the equipment body (15), rolling portion includes first support piece (16) with equipment body (15) fixed connection and rotates wind-up roll (17) of connecting on first support piece (16), fixedly connected with drives wind-up roll (17) pivoted first driving motor (18) on first support piece (16), the portion of sewing up includes second support piece (19) with equipment body (15) fixed connection and sets up a plurality of sewing machine (20) on second support piece (19), guide portion includes a plurality of guide rollers (22) on third support piece (21) and the rotation connection third support piece (21) with equipment body (15) fixed connection.

5. The method of processing an anti-slip bed sheet fabric as claimed in claim 4, wherein: the material loading portion includes fourth support piece (23) with equipment body (15) fixed connection, a plurality of material grooves (24) of going up have been seted up on fourth support piece (23), it can dismantle in material groove (24) and be connected with material roller (25) to go up, a plurality of first extensible member (26) of fixedly connected with are gone up in fourth support piece (23), the drive end fixedly connected with air brake (27) of first extensible member (26), set up air brake (28) that supply material roller (25) to penetrate on air brake (27), the drive end of first extensible member (26) can drive the cell wall and the material roller (25) counterbalance of air brake (28).

6. The method of processing an anti-slip bed sheet fabric as claimed in claim 5, wherein: the processing portion comprises a fifth support piece (29) fixedly connected with the equipment body (15), the fifth support piece (29) is sequentially and fixedly connected with a first guide plate (30), a second guide plate (31) and a third guide plate (32) from bottom to top, the fifth support piece (29) is located at the top of the third guide plate (32), a plurality of second telescopic pieces (33) and a plurality of bottom fixedly connected with sliding plates (34) of the second telescopic pieces (33) are arranged, the bottom end of each sliding plate (34) is provided with a blanking portion, the blanking portion comprises a plurality of blanking pieces (35) used for blanking out the anti-skid pieces (5) and the anti-skid grooves (4), the blanking pieces (35) are hollow and are opened at the bottom, a blanking groove (36) corresponding to the positions of the blanking pieces (35) and used for allowing waste materials to fall is vertically arranged on the third guide plate (32) in a penetrating manner, a plurality of symmetrical support rods (37) are arranged between the third guide plate (32) and the second guide plate (31), a plurality of air transmission rollers are connected between the support pieces (37), and one end of the air transmission rollers penetrates out of the feeding roller (29) and is connected with a pump assembly (35), and the pump (39).

7. The method of processing an anti-slip bed sheet fabric as claimed in claim 6, wherein: the improved electric heating device is characterized in that a plurality of first placing grooves (40) are formed in the top surface of the third guide plate (32), an elastic element (41) is fixedly connected in the first placing grooves (40), a pressure plate (42) flush with the third guide plate (32) is fixedly connected to the top end of the elastic element (41), a plurality of second placing grooves (43) corresponding to the positions of the first placing grooves (40) are formed in the bottom surface of the sliding plate (34), a first electric heating element (44) is fixedly connected in the second placing grooves (43), a plurality of hot pressing teeth (45) used for extruding anti-sliding marks (6) are fixedly connected to the bottom surface of the first electric heating element (44), a yielding groove (46) is formed in the top surface of the third guide plate (32), a plurality of V-shaped plates (47) with the top ends lower than the top surface of the third guide plate (32) are fixedly connected to the bottom surface of the sliding plate (34), a second electric heating element (48) corresponding to the positions of the V-shaped plates (47) is fixedly connected to the bottom surface of the yielding groove (46), the electric heating element is arranged in the direction of the isosceles-shaped triangular-shaped concave portion (48), and the isosceles-shaped electric heating element (48) penetrates into the isosceles-shaped concave portion.