CN114908432A

CN114908432A - Core-spun hot-melt composite fiber with high adsorption performance and processing equipment thereof

Info

Publication number: CN114908432A
Application number: CN202210598238.3A
Authority: CN
Inventors: 陈锋荣
Original assignee: Caitong Suzhou Nano New Material Technology Co ltd
Current assignee: Caitong Suzhou Nano New Material Technology Co ltd
Priority date: 2022-05-30
Filing date: 2022-05-30
Publication date: 2022-08-16

Abstract

The invention discloses a core-spun hot-melt composite fiber with high adsorption performance and processing equipment thereof, wherein the core-spun hot-melt composite fiber comprises a fiber bundle formed by compounding a plurality of groups of fibrils, each fibril comprises a core layer and a skin layer coated outside the core layer, the skin layer and the core layer are compounded into a composite fiber through a composite spinning component spinneret plate, and the core-spun hot-melt composite fiber is characterized in that: the core layer comprises a cylinder and a plurality of groups of convex bodies which are annularly and uniformly distributed outside the cylinder, the convex bodies and the cylinder are in an integral structure, and the skin layer is coated outside the cylinder and the convex bodies; the processing equipment includes the frame, sets up conveyer belt in the frame and cuts the mechanism, it includes cutting assembly, traction assembly and presses the material subassembly to cut the mechanism, traction assembly will fine bundle on the conveyer belt is drawn towards the right side, it will to press the material subassembly fine bundle compresses tightly, and the warp it cuts off to cut the mechanism. The invention improves the product adsorption performance and improves the cutting quality.

Description

Core-spun hot-melt composite fiber with high adsorption performance and processing equipment thereof

Technical Field

The invention relates to a core-spun hot-melt composite fiber, in particular to a core-spun hot-melt composite fiber with high adsorption performance and processing equipment thereof.

Background

The traditional filtering cotton stick, the water-storing, oil-storing and ink-storing cotton core, the water-guiding and ink-guiding cotton core, the special fiber pen point bar, the perfume aromatherapy fiber stick, the liquid mosquito incense volatilization stick and the like generally adopt common DTY fibers, glue is coated on the outer surface of the DTY fibers, and then the DTY fibers are heated and dried by a hot box and pulled out from a mold. In the mode, the production cost is higher, the pungent smell of the glue exists, the production speed is slow, and the labor intensity of operators is high.

In order to solve the problems, core-spun hot-melt composite fibers are adopted for manufacturing at present. However, in the prior art, the core-spun hot-melt composite fiber has some defects, such as insufficient adsorption performance, which can affect the performance. Meanwhile, when the cutting machine is used for cutting, the cutting effect is poor, the cutting machine is easy to adhere, or the cutting machine is stretched when being used for cutting, so that the cutting quality is influenced.

Disclosure of Invention

The invention aims to provide a core-spun hot-melt composite fiber with high adsorption performance and processing equipment thereof.

In order to achieve the purpose, the invention adopts the technical scheme that: the utility model provides a high adsorptivity's core-spun hot melt conjugate fiber, includes the fine bundle that forms by the compounding of multiunit fibril, fibril includes sandwich layer and cladding in the outside cortex of sandwich layer, cortex and sandwich layer make conjugate fiber through the compounding of spinning subassembly spinneret, the appearance of cortex is cylindrical structure, the sandwich layer includes cylinder and annular equipartition in the outside multiunit convex body of cylinder, the convex body with the cylinder structure as an organic whole, the cortex cladding in the cylinder reaches the outside of convex body.

In the above technical scheme, the cross section of the convex body is of a convex arc convex structure.

In the above technical scheme, the convex bodies are at least 3 groups, and the outer surfaces of the convex bodies are close to the outer surface of the skin layer.

In order to achieve the purpose, the processing equipment for the core-spun hot-melt composite fiber with high adsorption performance comprises a rack, a conveying belt arranged on the rack and a cutting mechanism, wherein the cutting mechanism is arranged on the right side of the conveying belt and comprises a cutting assembly, a traction assembly and a pressing assembly; the machine frame is provided with a driving mechanism, the driving mechanism drives the cutting assembly and the pressing assembly to work, and the pressing assembly compresses the fiber bundles and cuts the fiber bundles through the cutting mechanism.

In the technical scheme, the traction assembly comprises a supporting roller, a traction roller and a motor, the supporting roller is rotatably installed on the rack, the outer edge surface of the top of the supporting roller is flush with the top surface of the conveying belt, two ends of the traction roller are respectively installed on the rack through a sliding block, a vertical sliding groove is respectively arranged on the rack outside the two ends of the supporting roller, each group of sliding blocks is slidably arranged in one group of vertical sliding grooves, the motor is installed at the outer end of one group of sliding blocks, the output shaft of the motor is connected with one end of the traction roller, the motor drives the traction roller to rotate, the traction roller is arranged right above the supporting roller, and a traction gap is formed between the traction roller and the supporting roller; and a vertical spring is arranged in each group of the vertical sliding grooves, the top of the vertical spring is abutted against the top surface of the vertical sliding groove, the bottom of the vertical spring is abutted against the top surface of the sliding block, and the vertical spring pushes the sliding block to move downwards so that the traction roller is close to the supporting roller.

In the technical scheme, a plurality of groups of longitudinal raised lines are uniformly distributed on the outer edge surfaces of the supporting roller and the traction roller in an annular mode.

In the technical scheme, the cutting assembly comprises a cutter, a mounting plate and a guide mechanism, the driving mechanism comprises a vertical cylinder, an output shaft at the bottom of the vertical cylinder is connected with the top of the mounting plate, a support table is arranged on a rack on the right side of the traction assembly, the top surface of the support table is flush with the top surface of the conveying belt, the mounting plate is arranged right above the support table, the vertical cylinder is mounted on the rack, and the output shaft at the bottom of the vertical cylinder is connected with the middle part of the top surface of the mounting plate; the pressing assembly and the cutter are mounted on the mounting plate, the pressing assembly is arranged on the left side of the cutter, the pressing assembly is arranged right above the supporting table, and the left side surface of the cutter is flush with the right side surface of the supporting table; a vertical plate is arranged in the middle of the bottom surface of the mounting plate, the vertical plate is arranged between the material pressing assembly and the cutter, a longitudinal supporting mechanism is arranged on the right side surface of the vertical plate, the upper part of the cutter is movably connected with the longitudinal supporting mechanism, and the cutter moves back and forth on the longitudinal supporting mechanism; the guide mechanisms are arranged on the front side and the rear side of the cutter, when the mounting plate moves up and down, the mounting plate pushes the cutter to move up and down, and the guide mechanisms synchronously push the cutter to move back and forth on the longitudinal supporting mechanism.

In the technical scheme, the material pressing assembly comprises a pressing plate, two groups of vertical guide rods and two groups of springs, wherein the pressing plate is arranged below the mounting plate in parallel, the two groups of vertical guide rods are respectively vertically mounted at the front end and the rear end of the top surface of the pressing plate, two groups of guide holes are formed in the mounting plate, the top of each group of vertical guide rods penetrates through one group of guide holes and is arranged right above the mounting plate, and the top of each vertical guide rod is in threaded connection with a limiting nut which is arranged above the mounting plate; each group of springs is sleeved outside one group of vertical guide rods, two ends of each spring are respectively abutted to the mounting plate and the pressing plate, and the springs push the pressing plates to move downwards, so that the bottom surfaces of the limiting nuts are abutted to the top surfaces of the mounting plates.

In the technical scheme, the longitudinal supporting mechanism comprises at least one group of supporting rods, the left sides of the supporting rods are vertically connected with the middle part of the right side of the vertical plate, a bearing is arranged on the outer edge surface of the right end of each supporting rod, a longitudinal through groove is formed in the middle part of the cutter, the bearing is inserted into the longitudinal through groove, the outer edge surface of the top part and the outer edge surface of the bottom part of the bearing are respectively contacted with the top surface and the bottom surface of the longitudinal through groove, and the length of the longitudinal through groove is greater than the diameter of the bearing; the guide mechanism comprises two groups of mutually parallel oblique guide rails, the oblique guide rails are obliquely and forwardly arranged from top to bottom, the two groups of oblique guide rails are respectively arranged on the front side and the rear side of the cutter, the front side and the rear side of the cutter are respectively inclined planes, the inclined planes are arranged in parallel to the oblique guide rails, each group of inclined planes is provided with an oblique sliding groove, and each group of oblique sliding grooves is connected with one group of oblique guide rails in a sliding manner; when the mounting plate moves up and down, the vertical plate and the bearing push the cutter to move up and down, and the oblique guide rail pushes the cutter to move back and forth.

In the technical scheme, the left side of the bottom of the cutter is provided with a blade; the top of mounting panel is equipped with two sets of connecting rods, the connecting rod is on a parallel with vertical cylinder sets up, the top of connecting rod with the frame removes continuously.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

1. the core layer comprises the column body and the multiple groups of convex bodies arranged outside the column body, and the adsorption area and the adsorption effect can be increased through the arrangement of the multiple groups of convex bodies;

2. according to the invention, the product is conveyed by the conveying belt, the product is intermittently subjected to fixed-distance traction conveying through the traction assembly, meanwhile, the product is cut through the cutting assembly, the cutting stability and quality can be ensured, meanwhile, in the process that the cutter moves downwards for cutting, the cutter can also move towards one side, the adhesion condition is prevented, the product is prevented from being stretched, and the cutting effect can be effectively improved.

Drawings

FIG. 1 is a schematic representation of the structure of a filament according to one embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a processing apparatus according to a first embodiment of the present invention;

fig. 3 is a right side view of the cutting mechanism (in a retracted state of the output shaft of the vertical cylinder) in the first embodiment of the present invention;

fig. 4 is a right side view of the cutting mechanism (in a state where the output shaft of the vertical cylinder is extended) in the first embodiment of the present invention.

Wherein: 1. a core layer; 2. a skin layer; 3. a cylinder; 4. a convex body; 5. a frame; 6. a conveyor belt; 7. cutting the assembly; 8. a traction assembly; 9. a material pressing component; 10. a support roller; 11. a traction roller; 12. a motor; 13. a slider; 14. a vertical chute; 15. a vertical spring; 16. longitudinal convex strips; 17. a cutter; 18. mounting a plate; 19. a vertical cylinder; 20. a support table; 21. a vertical plate; 22. pressing a plate; 23. a vertical guide rod; 24. a spring; 25. a limit nut; 26. a connecting rod; 27. a support bar; 28. a bearing; 29. a longitudinal through groove; 30. an oblique guide rail; 31. an oblique chute; 32. a feeding groove.

Detailed Description

The invention is further described with reference to the following figures and examples:

the first embodiment is as follows: referring to fig. 1, a core-spun hot-melt composite fiber with high adsorption performance comprises a fiber bundle formed by compounding multiple groups of fibrils, wherein the fibrils comprise a core layer 1 and a skin layer 2 coated outside the core layer, the skin layer and the core layer are compounded into the composite fiber through a composite spinning component spinneret plate, the skin layer is of a cylindrical structure, the core layer comprises a cylinder 3 and multiple groups of protrusions 4 uniformly distributed outside the cylinder in an annular mode, the protrusions and the cylinder are of an integral structure, and the skin layer is coated outside the cylinder and the protrusions.

In this embodiment, the sandwich layer adopts cylinder and outside convex body, like this under the condition that reduces the cylinder volume as far as possible, increases the area of contact of sandwich layer, improves adsorption efficiency, and adsorption effect in a certain period is good, and it is also stronger to deposit liquid ability (in the structure in the past, the product can lead to adsorption effect not too good because adsorption area is not enough).

Wherein, the cross section of the convex body is an arc convex structure which is convex outwards.

The convex body is at least 3 groups, and the outer surface of the convex body is close to the outer surface of the skin layer.

Wherein, arc protruding structure not only increases adsorption area, improves adsorption effect.

Referring to fig. 2 to 4, in order to achieve the above purpose, the processing equipment for core-spun hot-melt composite fibers with high adsorption performance provided by the invention comprises a frame 5, a conveyor belt 6 arranged on the frame, and a cutting mechanism, wherein the cutting mechanism is arranged on the right side of the conveyor belt, the cutting mechanism comprises a cutting assembly 7, a traction assembly 8 and a pressing assembly 9, the traction assembly is arranged on the right side of the conveyor belt, the cutting assembly is arranged on the right side of the traction assembly, the pressing assembly is arranged between the traction assembly and the cutting assembly, and the traction assembly draws fiber bundles on the conveyor belt towards the right and conveys the fiber bundles into the cutting assembly; the machine frame is provided with a driving mechanism, the driving mechanism drives the cutting assembly and the pressing assembly to work, and the pressing assembly compresses the fiber bundles and cuts the fiber bundles through the cutting mechanism.

In this embodiment, the finished product (fiber bundle) is placed on the conveyer belt and conveyed towards the right through the conveyer belt, wherein the conveying speed of the conveyer belt is consistent with the traction speed of the traction assembly, the product is drawn towards the right through the traction mechanism, after the traction assembly draws a preset length, the product is pressed by the pressing assembly, and then is cut off through the cutting assembly, so that quantitative cutting of the product is completed. Wherein, the in-process of cutting, pull subassembly and conveyer belt pause work for guarantee the quality of cutting. Wherein, can set up chute feeder 32 in cutting assembly below, the chute feeder is by the downward setting of left right side slope, and the product after cutting off can see off towards the right side through the chute feeder, and the right-hand member setting of chute feeder connects the storage bucket, perhaps transfer chain for the collection or the transport of product.

Referring to fig. 2-4, the traction assembly comprises a support roller 10, a traction roller 11 and a motor 12, the support roller is rotatably mounted on the frame, the top outer edge surface of the support roller is flush with the top surface of the conveying belt, two ends of the traction roller are respectively mounted on the frame through a sliding block 13, a vertical sliding groove 14 is respectively formed in the frame outside the two ends of the support roller, each group of sliding blocks is slidably arranged in one group of vertical sliding grooves, the motor is mounted at the outer end of one group of sliding blocks, an output shaft of the motor is connected with one end of the traction roller, the motor drives the traction roller to rotate, the traction roller is arranged right above the support roller, and a traction gap is formed between the traction roller and the support roller; and a vertical spring 15 is arranged in each group of the vertical sliding groove, the top of the vertical spring is abutted against the top surface of the vertical sliding groove, the bottom of the vertical spring is abutted against the top surface of the sliding block, and the vertical spring pushes the sliding block to move downwards so that the traction roller is close to the supporting roller.

In this embodiment, the motor can drive the carry over pinch rolls and rotate, and vertical spring then can promote the slider and remove down for the bottom outer fringe face of carry over pinch rolls is close to the top outer fringe face of backing roll, or the bottom surface of carry over pinch rolls supports on the top surface of backing roll, and the product then enters into and pulls in the clearance, and the carry over pinch rolls can drive the backing roll with the commentaries on classics simultaneously rotating the in-process, also can drive the product and remove towards the right side, realizes pulling of product. And, because the product is flexible product, consequently, there is certain high deviation in the different positions, adopts the setting of vertical spring, gives the space that the carry over pinch rolls reciprocated, can enough block the product, can pull the product again simultaneously, guarantees that the pulling of product cuts length accurate relatively.

And a plurality of groups of longitudinal raised strips 16 are uniformly distributed on the outer edge surfaces of the supporting roller and the traction roller in an annular manner. Longitudinal raised line above the carry over pinch rolls can just face the clearance between the adjacent longitudinal raised line above the backing roll, makes it constitute class gear engagement structure, and pressure is little again moreover, can not crush the product, and at the traction in-process like this, the traction stability is guaranteed to the contact friction between increase and the product, prevents the phenomenon of skidding.

Referring to fig. 2-4, the cutting assembly comprises a cutter 17, a mounting plate 18 and a guide mechanism, the driving mechanism comprises a vertical cylinder 19, an output shaft at the bottom of the vertical cylinder is connected with the top of the mounting plate, and the vertical cylinder drives the mounting plate to move up and down. A support table 20 is arranged on the rack on the right side of the traction assembly, the top surface of the support table is flush with the top surface of the conveying belt, the mounting plate is arranged right above the support table, the vertical cylinder is mounted on the rack, and an output shaft at the bottom of the vertical cylinder is connected with the middle part of the top surface of the mounting plate; the pressing assembly and the cutter are mounted on the mounting plate, the pressing assembly is arranged on the left side of the cutter, the pressing assembly is arranged right above the supporting table, and the left side surface of the cutter is flush with the right side surface of the supporting table; a vertical plate 21 is arranged in the middle of the bottom surface of the mounting plate, the vertical plate is arranged between the material pressing assembly and the cutter, a longitudinal supporting mechanism is arranged on the right side surface of the vertical plate, the upper part of the cutter is movably connected with the longitudinal supporting mechanism, and the cutter moves back and forth on the longitudinal supporting mechanism; the guide mechanisms are arranged on the front side and the rear side of the cutter, when the mounting plate moves up and down, the mounting plate pushes the cutter to move up and down, and the guide mechanisms synchronously push the cutter to move back and forth on the longitudinal supporting mechanism.

The pressing assembly comprises a pressing plate 22, vertical guide rods 23 and springs 24, the pressing plate is arranged below the mounting plate in parallel, the number of the vertical guide rods and the number of the springs are two, the two groups of vertical guide rods are respectively and vertically mounted at the front end and the rear end of the top surface of the pressing plate, two groups of guide holes are formed in the mounting plate, the top of each group of vertical guide rods penetrates through one group of guide holes and is arranged right above the mounting plate, and the top of each vertical guide rod is in threaded connection with a limiting nut 25 which is arranged above the mounting plate; each group of springs is sleeved outside one group of vertical guide rods, two ends of each spring are respectively abutted to the mounting plate and the pressing plate, and the springs push the pressing plates to move downwards, so that the bottom surfaces of the limiting nuts are abutted to the top surfaces of the mounting plates.

The left side of the bottom of the cutter is provided with a blade; the top of mounting panel is equipped with two sets of connecting rods 26, the connecting rod is on a parallel with vertical cylinder sets up, the top of connecting rod with the frame removes continuously. The setting of connecting rod guarantees the smooth and easy nature and the stability that the diaphragm reciprocated.

In this embodiment, the in-process that cuts, the mounting panel moves down, can drive cutter and clamp plate simultaneously and move down, the clamp plate presses the product on the backup pad earlier, and simultaneously, mounting panel and cutter continue to move down, the clamp plate no longer continues to move down, compress the spring, the compressive force of spring gives the clamp plate holding down force, compress tightly the product on the backup pad, the cutter is at the in-process that moves down, the cutting edge of cutter and the right flank contact of backup pad, and the cutter moves down, cut off the product, and simultaneously, at this in-process, still can promote the cutter through guiding mechanism and move forward, the cutter not only moves down, and the antedisplacement, can high performance cut off the product, prevent the adhesion condition to appear, improve effect and quality cut off. (in the prior art, the cutter is straight up and down, and certain sticking occurs).

As shown in fig. 2 to 4, the longitudinal support mechanism includes at least one set of support rods 27, the left sides of the support rods are vertically connected with the middle part of the right side of the vertical plate, a bearing 28 is disposed on the outer edge surface of the right end of the support rod, a longitudinal through groove 29 is disposed in the middle part of the cutter, the bearing is inserted into the longitudinal through groove, the top outer edge surface and the bottom outer edge surface of the bearing are respectively contacted with the top surface and the bottom surface of the longitudinal through groove, and the length of the longitudinal through groove is greater than the diameter of the bearing; the guide mechanism comprises two groups of parallel oblique guide rails 30 which are arranged obliquely and forwards from top to bottom, the two groups of oblique guide rails are respectively arranged on the front side and the rear side of the cutter, the front side and the rear side of the cutter are respectively inclined planes, the inclined planes are arranged in parallel to the oblique guide rails, each group of inclined planes is provided with an oblique chute 31, and each group of oblique chutes is connected with one group of oblique guide rails in a sliding manner; when the mounting plate moves up and down, the vertical plate and the bearing push the cutter to move up and down, and the inclined guide rail pushes the cutter to move back and forth, so that when the cutter cuts off a product, the cutter is in a beveling mode relative to the product, and the cutting effect is stronger.

In this embodiment, and because the setting of slant guide rail and slant spout, when the diaphragm moved down, the slant slide rail can promote the cutter and move forward, when it moved forward, because the bearing is inserted and is located vertical logical inslot, through the bracing piece, bearing and vertical logical groove carry on spacingly, the vertical position between cutter and the diaphragm that makes is fixed, when the diaphragm drove the cutter and reciprocates, the slant guide rail then is used for driving the cutter back-and-forth movement, stability and quality for guaranteeing to cut off.

Claims

1. The utility model provides a high adsorption performance's covering core hot melt composite fiber, includes the fine bundle that forms by the compounding of multiunit fibril, fibril includes the sandwich layer and wraps up in the outside cortex of sandwich layer, cortex and sandwich layer make composite fiber through the compounding of composite spinning subassembly spinneret, its characterized in that: the appearance of cortex is cylindrical structure, the sandwich layer includes cylinder and annular equipartition in the outside multiunit convex body of cylinder, the convex body with cylinder structure as an organic whole, the cortex cladding in the cylinder reaches the outside of convex body.

2. The core-spun hot-melt composite fiber with high adsorption performance according to claim 1, characterized in that: the cross section of the convex body is of a convex arc-shaped convex structure.

3. The core-spun hot-melt composite fiber with high adsorption performance according to claim 1, characterized in that: the convex body is at least 3 groups, and the outer surface of the convex body is close to the outer surface of the skin layer.

4. A processing device of core-spun hot melt composite fiber with high adsorption performance applying the core-spun hot melt composite fiber with high adsorption performance of claim 1 is characterized in that: the fiber bundle cutting machine comprises a rack, a conveying belt and a cutting mechanism, wherein the conveying belt and the cutting mechanism are arranged on the rack, the cutting mechanism is arranged on the right side of the conveying belt, the cutting mechanism comprises a cutting assembly, a traction assembly and a pressing assembly, the traction assembly is arranged on the right side of the conveying belt, the cutting assembly is arranged on the right side of the traction assembly, the pressing assembly is arranged between the traction assembly and the cutting assembly, and the traction assembly draws a fiber bundle on the conveying belt towards the right and conveys the fiber bundle into the cutting assembly; the machine frame is provided with a driving mechanism, the driving mechanism drives the cutting assembly and the pressing assembly to work, and the pressing assembly compresses the fiber bundles and cuts the fiber bundles through the cutting mechanism.

5. The processing equipment of the core-spun hot-melt composite fiber with high adsorption performance as claimed in claim 4, wherein: the traction assembly comprises a supporting roller, a traction roller and a motor, the supporting roller is rotatably installed on the rack, the outer edge surface of the top of the supporting roller is flush with the top surface of the conveying belt, two ends of the traction roller are respectively installed on the rack through a sliding block, a vertical sliding groove is respectively arranged on the rack outside the two ends of the supporting roller, each group of sliding blocks is slidably arranged in one group of vertical sliding grooves, the motor is installed at the outer end of one group of sliding blocks, the output shaft of the motor is connected with one end of the traction roller, the motor drives the traction roller to rotate, the traction roller is arranged right above the supporting roller, and a traction gap is formed between the traction roller and the supporting roller; and a vertical spring is arranged in each group of the vertical sliding grooves, the top of the vertical spring is abutted against the top surface of the vertical sliding groove, the bottom of the vertical spring is abutted against the top surface of the sliding block, and the vertical spring pushes the sliding block to move downwards so that the traction roller is close to the supporting roller.

6. The processing equipment of the core-spun hot-melt composite fiber with high adsorption performance as claimed in claim 5, wherein: and a plurality of groups of longitudinal raised lines are uniformly distributed on the outer edge surfaces of the supporting roller and the traction roller in an annular manner.

7. The processing equipment of the core-spun hot-melt composite fiber with high adsorption performance as claimed in claim 4, wherein: the cutting assembly comprises a cutter, a mounting plate and a guide mechanism, the driving mechanism comprises a vertical air cylinder, an output shaft at the bottom of the vertical air cylinder is connected with the top of the mounting plate, a support table is arranged on a rack on the right side of the traction assembly, the top surface of the support table is flush with the top surface of the conveying belt, the mounting plate is arranged right above the support table, the vertical air cylinder is mounted on the rack, and the output shaft at the bottom of the vertical air cylinder is connected with the middle part of the top surface of the mounting plate; the pressing assembly and the cutter are mounted on the mounting plate, the pressing assembly is arranged on the left side of the cutter, the pressing assembly is arranged right above the supporting table, and the left side surface of the cutter is flush with the right side surface of the supporting table; a vertical plate is arranged in the middle of the bottom surface of the mounting plate, the vertical plate is arranged between the material pressing assembly and the cutter, a longitudinal supporting mechanism is arranged on the right side surface of the vertical plate, the upper part of the cutter is movably connected with the longitudinal supporting mechanism, and the cutter moves back and forth on the longitudinal supporting mechanism; the guide mechanisms are arranged on the front side and the rear side of the cutter, when the mounting plate moves up and down, the mounting plate pushes the cutter to move up and down, and the guide mechanisms synchronously push the cutter to move back and forth on the longitudinal supporting mechanism.

8. The processing equipment of the core-spun hot-melt composite fiber with high adsorption performance as claimed in claim 7, wherein: the pressing assembly comprises a pressing plate, vertical guide rods and springs, the pressing plate is arranged below the mounting plate in parallel, the vertical guide rods and the springs are respectively arranged in two groups, the two groups of vertical guide rods are respectively and vertically mounted at the front end and the rear end of the top surface of the pressing plate, two groups of guide holes are formed in the mounting plate, the top of each group of vertical guide rods penetrates through one group of guide holes and is arranged right above the mounting plate, and the top of each vertical guide rod is in threaded connection with a limiting nut which is arranged above the mounting plate; each group of springs is sleeved outside one group of vertical guide rods, two ends of each spring are respectively abutted to the mounting plate and the pressing plate, and the springs push the pressing plates to move downwards, so that the bottom surfaces of the limiting nuts are abutted to the top surfaces of the mounting plates.

9. The processing equipment of the core-spun hot-melt composite fiber with high adsorption performance as claimed in claim 7, wherein: the longitudinal supporting mechanism comprises at least one group of supporting rods, the left sides of the supporting rods are vertically connected with the middle part of the right side of the vertical plate, a bearing is arranged on the outer edge surface of the right end of each supporting rod, a longitudinal through groove is formed in the middle of the cutter, the bearing is inserted into the longitudinal through groove, the outer edge surface of the top part and the outer edge surface of the bottom part of the bearing are respectively contacted with the top surface and the bottom surface of the longitudinal through groove, and the length of the longitudinal through groove is greater than the diameter of the bearing; the guide mechanism comprises two groups of mutually parallel oblique guide rails, the oblique guide rails are obliquely arranged forwards from top to bottom, the two groups of oblique guide rails are respectively arranged on the front side and the rear side of the cutter, the front side and the rear side of the cutter are respectively inclined planes, the inclined planes are arranged in parallel to the oblique guide rails, each group of inclined planes is provided with an oblique chute, and each group of oblique chutes is connected with one group of oblique guide rails in a sliding manner; when the mounting plate moves up and down, the vertical plate and the bearing push the cutter to move up and down, and the oblique guide rail pushes the cutter to move back and forth.

10. The apparatus for processing core-spun hot-melt composite fiber with high adsorption performance as claimed in claim 9, wherein: the left side of the bottom of the cutter is provided with a blade; the top of mounting panel is equipped with two sets of connecting rods, the connecting rod is on a parallel with vertical cylinder sets up, the top of connecting rod with the frame removes continuously.