CN216100521U - Lifting type fiber loading box for fiber spreading machine - Google Patents

Abstract

The utility model discloses a lifting fiber box for a fiber spreading machine, which relates to the field of fiber spreading machines and comprises a fiber spreading machine body, wherein a large fiber box is arranged on the upper surface of one side of the fiber spreading machine body, a small fiber box device is arranged in the large fiber box, a lifting mechanism and a guide mechanism are arranged at the bottom of the large fiber box, and the device is used for controlling the concentration ratio of slurry so as to manufacture fiber layers with different strengths by using different slurries; the small fiber box device in the large fiber box is provided with a plurality of groups, can be used for processing and producing fiber layers with various strengths and toughness, and the produced fiber layers can be processed again to generate fiber layers or fiber silk threads with different strengths and toughness, so that the fiber laying efficiency of the fiber silk is improved.

Description

Lifting type fiber loading box for fiber spreading machine

Technical Field

The utility model relates to the field of filament spreading machines, in particular to a lifting type fiber loading box for a filament spreading machine.

Background

In the forming process of the composite material, the fiber winding forming process is a process method that continuous fibers are regularly arranged on a core mold according to a certain linear shape under the action of tension after being impregnated with resin adhesive, and then the adhesive is cured by heating to form a certain shape. The fiber laying technology is fully called automatic tow laying and forming technology, and is also called automatic filament laying technology. The technology is a full-automatic composite material processing technology developed in the 70 s of the 20 th century as an improvement of fiber winding and automatic tape laying technologies, and is also one of the automatic composite material forming and manufacturing technologies which are developed fastest and highest in efficiency in recent years. The fiber laying technology can be used for laying convex surfaces and concave surfaces, can also be used for laying complex double-curvature components, has the function of cutting tows in laying, can meet the requirements of frightened cutting of laying layers to adapt to local thickening, descending of the laying layers and open laying, and has wider application value compared with a fiber winding technology and an automatic tape laying technology.

In the molding process of the composite material, the working stress of the fiber can be improved by reasonably controlling the tension, and the high-strength special effect of the fiber material is fully exerted. The final properties of the composite article are closely related to the process parameters during its production. The fiber yarn needs to be firstly arranged in the fiber box before the yarn is paved by the yarn paving machine, the function of the fiber box is less, and the actual high-efficiency yarn paving requirement is not met. Therefore, it is necessary to solve the above problems by inventing a lifting type fiber box for a fiber spreading machine.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a lifting type fiber box for a fiber spreading machine, so as to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides an over-and-under type dress fiber case for spreading silk machine, includes the spreading silk machine body, one side upper surface of spreading silk machine body is provided with big fiber case, be provided with little fiber case device in the big fiber case, the bottom of big fiber case is provided with elevating system and guiding mechanism, little fiber case device is including fixing the flexible unit in big fiber case bottom and fixing the little fiber case in flexible unit upper end, the top of little fiber case is provided with the case lid, the cross-section of case lid is I shape structure, and the middle part periphery of case lid forms the annular, and the bottom of case lid is provided with the inlet opening of intercommunication between annular and little fiber case inside, the lower extreme outer lane department an organic whole of case lid is provided with the go-between of connecting at little fiber case upper end opening part through screw-thread fit.

Preferably, the box cover is fixedly provided with a transmission unit, the lower end of the transmission unit is in transmission connection with a rotating rod which movably penetrates through the box cover and extends into the small fiber box, the rotating rod is sleeved with a rubber partition plate, the rubber partition plate and the rotating rod are mutually nested and in interference fit, the outer ring of the lower end of the rotating rod is movably sleeved with a power shell which is movably attached below the rubber partition plate, the inner wall of the small fiber box is fixedly welded with stop rods which stop at the upper surface of the rubber partition plate, the stop rods are of round rod structures, a plurality of groups of stop rods are arranged on the inner wall of the small fiber box in a round array shape, the end parts of the stop rods are hemispheroids, two groups of limit nuts which stop at one side of the rubber partition plate and one side of the power shell which are far away from each other are connected on the rotating rod in a threaded fit manner, the rubber baffle is sealed between the small fiber box and the rotating rod, and the outer ring of the rubber baffle is movably attached to the inner wall of the small fiber box.

In the embodiment, the device is used for controlling the concentration ratio of the slurry, so that different slurries are used for manufacturing fiber layers with different strengths, specifically, a sliding cover above a blanking hopper is opened in a sliding manner, the slurry is added into the lower end of a small fiber box, water is stored in a large fiber box, the small fiber box is controlled to descend through a telescopic unit, so that the water flows over the small fiber box, the water directly enters the inner part of the upper end of the small fiber box from a water inlet, at the moment, a transmission unit is started, a rubber partition plate can be driven to rotate through a rotating rod, a rubber ring is fixedly arranged at the inner ring of a power shell, and is sleeved at the outer ring of the rotating rod in an interference fit manner, so that when the rotating rod rotates, the power shell and the rubber partition plate both rotate, when the power shell rotates, because the power shell is in a hemispherical shell structure with an opening at the lower end, gas generated by centrifugal action can push the power shell to float upwards, so as to push the rubber partition plate to move towards the upper end of the rotating rod, because the inner wall of the small fiber box is provided with the stop lever which stops above the rubber partition plate, when the rubber partition plate moves upwards, the outer ring of the small fiber box can be stirred by the stop lever to turn downwards, at the moment, water in the upper end of the small fiber box can enter the lower end of the small fiber box, the water is mixed with the slurry, so that slurry with a certain concentration is prepared, a fiber layer is generated on the surface after the slurry is precipitated in the small fiber box, the strength and the thickness of the fiber layer generated when the concentration of the slurry is different are different, and the fiber layers with different thicknesses and strengths are conveniently twisted and superposed to form fiber layers or fiber threads with different strengths and toughness;

in this device, little fiber case device in the big fiber case is provided with the multiunit, can be used to carry out processing production to the cellosilk layer of multiple intensity and toughness, and the cellosilk layer after the production can be processed once more each other and generate cellosilk layer or cellosilk thread that intensity and toughness are different, has improved the shop silk efficiency of cellosilk.

Preferably, one side of little fiber box is provided with down the hopper, and the top opening of hopper slides and is provided with the sliding closure down, the fixed pipe that is provided with the intercommunication at little fiber box inside of lower extreme of hopper, the pipe activity is inserted and is closed in the side of little fiber box, and the tip of pipe is provided with the restriction at the inside fibre pipe end of little fiber box, the outside cover of flexible unit is equipped with waterproof rubber sleeve, the bottom at little fiber box and the bottom of big fiber box are fixed respectively at the upper and lower both ends of waterproof rubber sleeve.

The sliding cover is connected to the opening of the blanking hopper through the sliding pair, the opening of the blanking hopper can be closed by the sliding cover, the size of the opening is adjustable, the circular tube is movably inserted into the side face of the small fiber box, when the circular tube is rotated to enable the opening of the blanking hopper to face downwards, waste liquid in the small fiber box can be conveniently discharged, and the practicability is high;

wherein, the side of little fiber box is provided with the scale mark that is used for observing the water yield that gets into in the little fiber box, and the flexible unit can use devices such as electric putter, and the drive unit can use devices such as motor.

Preferably, the lifting mechanism comprises a lifting unit, a groove is formed in the surface of the silk spreader body, the lower end of the lifting unit is fixed to the bottom of the groove, and the upper end of the lifting unit is fixed to the middle of the bottom of the large fiber box.

Furthermore, the lifting mechanism can drive the large fiber box to lift, so that the large fiber box can be conveniently loaded and unloaded for use, the bottom of the small fiber box device can be fixed on the large fiber box through screws, the small fiber box device is convenient to disassemble and assemble, and the large fiber box can also be used for producing a large-area fiber layer;

in the device, the lifting unit may be an electric push rod or an air cylinder.

Preferably, the guide mechanism comprises a pull rod and a sealing core fixed at the end part of the pull rod, the upper end of the pull rod is fixed at the bottom of the large fiber box, a guide groove is formed in the surface of the fiber spreading machine body, and the sealing core slides in the guide groove in a sealing mode.

Specifically, the guide way below the sealing core forms sealed air cavity, and when the lift unit promoted big fiber box and rises, the lower extreme atmospheric pressure of sealing core to the guide way released, formed the negative pressure to produce a pulling and holding power when rising big fiber box, and big fiber box rises more highly, and pulling and holding power is big more, has played the purpose that stable big fiber box rises, produces when avoiding big fiber box to rise and slightly rocks the phenomenon that influences the formation of cellosilk layer.

Preferably, the upper inner wall of the guide groove is fixedly provided with a pushing unit, and the lower end of the pushing unit is fixedly provided with a height limiting plate.

Wherein, the promotion unit can drive the limit for height board and go up and down, when the promotion unit drives the limit for height board and goes up and down to different height, has restricted the rise height of sealed core, can conveniently adjust the rising highest height of big fiber box, and the promotion unit can use devices such as cylinder or electric putter.

Preferably, the guide mechanisms are provided with two groups, and the two groups of guide mechanisms are arranged on two sides of the lifting mechanism.

In the device, two groups of guide mechanisms are symmetrically arranged, so that the stability of the large fiber box during lifting is further improved.

The utility model has the technical effects and advantages that:

1. the utility model discloses a lifting type fiber loading box for a fiber spreading machine, which comprises a fiber spreading machine body, wherein a large fiber box is arranged on the upper surface of one side of the fiber spreading machine body, a small fiber box device is arranged in the large fiber box, a lifting mechanism and a guide mechanism are arranged at the bottom of the large fiber box, and the device is used for controlling the concentration ratio of slurry, so that different slurries are used for manufacturing fiber layers with different strengths;

2. according to the lifting type fiber box for the fiber spreading machine, multiple groups of small fiber box devices in a large fiber box are arranged, the small fiber box devices can be used for processing and producing fiber layers with various strengths and toughness, the produced fiber layers can be processed again to generate fiber layers or fiber threads with different strengths and toughness, and the fiber spreading efficiency of fiber threads is improved;

3. according to the lifting type fiber loading box for the fiber spreading machine, the sliding cover is connected to the opening of the blanking hopper through the sliding pair, the opening of the blanking hopper can be closed by the sliding cover, the opening is adjustable in size, the circular pipe is movably inserted into the side face of the small fiber box, when the circular pipe is rotated to enable the opening of the blanking hopper to face downwards, waste liquid in the small fiber box can be conveniently discharged, and the lifting type fiber loading box is high in practicability.

Drawings

FIG. 1 is a schematic view of the structure of the present invention.

FIG. 2 is a schematic view of the internal structure of the present invention.

FIG. 3 is a schematic view of the structure of the fiber box assembly of the present invention.

In the figure: 1. a filament spreader body; 2. a large fiber box; 3. a small fiber box device; 4. a guide groove; 5. a groove; 6. a lifting unit; 7. a pull rod; 8. sealing the core; 9. a pushing unit; 10. a height limiting plate; 11. a small fiber box; 12. a waterproof rubber sleeve; 13. a telescopic unit; 14. a power shell; 15. the end of the fiber round pipe; 16. a circular tube; 17. feeding a hopper; 18. a sliding cover; 19. a transmission unit; 20. a box cover; 21. a ring groove; 22. a water inlet hole; 23. a connecting ring; 24. a stop lever; 25. scale lines; 26. a limit nut; 27. rotating the rod; 28. a rubber spacer.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The utility model provides a lifting type fiber loading box for a fiber spreading machine, which is shown in figures 1-3 and comprises a fiber spreading machine body 1, wherein a large fiber box 2 is arranged on the upper surface of one side of the fiber spreading machine body 1, a small fiber box device 3 is arranged in the large fiber box 2, a lifting mechanism and a guide mechanism are arranged at the bottom of the large fiber box 2, the small fiber box device 3 comprises a telescopic unit 13 fixed at the bottom of the large fiber box 2 and a small fiber box 11 fixed at the upper end of the telescopic unit 13, a box cover 20 is arranged above the small fiber box 11, the cross section of the box cover 20 is in an I-shaped structure, a ring groove 21 is formed at the periphery of the middle of the box cover 20, a water inlet hole 22 communicated between the ring groove 21 and the inside of the small fiber box 11 is formed at the bottom of the box cover 20, and a connecting ring 23 connected to an opening at the upper end of the small fiber box 11 through threaded fit is integrally arranged at the outer ring at the lower end of the box cover 20.

The box cover 20 is fixedly provided with a transmission unit 19, the lower end of the transmission unit 19 is in transmission connection with a rotating rod 27 which movably penetrates through the box cover 20 and extends into the small fiber box 11, the rotating rod 27 is sleeved with a rubber partition plate 28, the rubber partition plate 28 and the rotating rod 27 are mutually nested and in interference fit, the outer ring of the lower end of the rotating rod 27 is movably sleeved with a power shell 14 which is movably attached below the rubber partition plate 28, the inner wall of the small fiber box 11 is fixedly welded with a stop lever 24 which blocks the upper surface of the rubber partition plate 28, the stop lever 24 is of a round rod structure, a plurality of groups are arranged on the inner wall of the small fiber box 11 in a circular array shape, the end part of the stop lever 24 is a hemisphere, the rotating rod 27 is connected with two groups of stop blocks on the rubber partition plate 28 through threaded fit, the limit nuts 26 on the sides, far away from each other, of the power shells 14, the rubber partition plate 28 is sealed between the small fiber box 11 and the rotating rod 27, and the outer ring of the rubber partition plate 28 is movably attached to the inner wall of the small fiber box 11.

In this embodiment, the device is used for controlling the concentration ratio of the slurry, so as to make different fiber layers with different strengths by using different slurries, specifically, the sliding cover 18 above the lower hopper 17 is opened in a sliding manner, the slurry is added into the lower end of the small fiber box 11, the large fiber box 2 stores water, the small fiber box 11 is controlled to descend by the telescopic unit 13, so that the water flows over the small fiber box 11, the water directly enters the upper end of the small fiber box 11 from the water inlet hole 22, at this time, the transmission unit 19 is started, the rubber partition plate 28 can be driven to rotate by the rotating rod 27, the rubber ring is fixedly arranged at the inner ring of the power shell 14, and the rubber ring is sleeved at the outer ring of the rotating rod 27 in an interference fit manner, so that when the rotating rod 27 rotates, the power shell 14 and the rubber partition plate 28 both rotate, when the power shell 14 rotates, because the power shell is a hemispherical shell structure with an open lower end, the gas generated by centrifugal action can push the power shell 14 to float upwards, therefore, the rubber partition plate 28 is pushed to move towards the upper end of the rotating rod 27, and the baffle rod 24 which is used for blocking the upper part of the rubber partition plate 28 is arranged on the inner wall of the small fiber box 11, so that when the rubber partition plate 28 moves upwards, the outer ring of the rubber partition plate 28 can be stirred by the baffle rod 24 to turn downwards, at the moment, water in the upper end of the small fiber box 11 can enter the lower end of the small fiber box 11 and be mixed with slurry, so that slurry with certain concentration is prepared, a fiber layer is generated on the surface after the slurry is precipitated in the small fiber box 11, the strength and the thickness of the fiber layer generated when the concentration of the slurry is different are different, and the fiber layers with different thicknesses and strengths are conveniently twisted and superposed to form fiber layers or fiber threads with different strengths and toughness;

in this device, little fiber case device 3 in big fiber case 2 is provided with the multiunit, can be used to carry out processing production to the cellosilk layer of multiple intensity and toughness, and the cellosilk layer after the production can be processed the different cellosilk layer or the cellosilk line of generation intensity and toughness once more each other, has improved the efficiency of spreading of cellosilk.

Hopper 17 is provided with down to one side of little fiber box 11, the top opening of hopper 17 slides and is provided with sliding closure 18 down, the fixed pipe 16 that is provided with the intercommunication at little fiber box 11 inside of lower hopper 17's lower extreme, pipe 16 activity is inserted and is closed in little fiber box 11's side, the tip of pipe 16 is provided with the restriction at the inside fibre pipe end 15 of little fiber box 11, the outside cover of flexible unit 13 is equipped with waterproof rubber sleeve 12, the bottom at little fiber box 11 and the bottom of big fiber box 2 are fixed respectively at the upper and lower both ends of waterproof rubber sleeve 12.

It should be noted that the sliding cover 18 is connected to the opening of the blanking hopper 17 through the sliding pair, the opening of the blanking hopper 17 can be closed by the sliding cover 18, the size of the opening is adjustable, and the circular tube 16 is movably inserted and combined on the side surface of the small fiber box 11, when the circular tube 16 is rotated to make the opening of the blanking hopper 17 face downward, the waste liquid in the small fiber box 11 is conveniently discharged, and the practicability is strong;

wherein, the side of the small fiber box 11 is provided with a scale mark 25 for observing the water quantity entering the small fiber box 11, the telescopic unit 13 can use a device such as an electric push rod, and the transmission unit 19 can use a device such as a motor.

The lifting mechanism comprises a lifting unit 6, a groove 5 is formed in the surface of the silk spreader body 1, the lower end of the lifting unit 6 is fixed to the bottom of the groove 5, and the upper end of the lifting unit 6 is fixed to the middle of the bottom surface of the large fiber box 2.

Furthermore, the lifting mechanism can drive the large fiber box 2 to lift, so that the large fiber box 2 can be conveniently loaded and unloaded, the bottom of the small fiber box device 3 can be fixed on the large fiber box 2 through screws, the small fiber box device is convenient to disassemble and assemble, and the large fiber box 2 can also be used for producing a large-area fiber layer;

in the device, the lifting unit 6 may be an electric push rod or an air cylinder.

The guide mechanism comprises a pull rod 7 and a sealing core 8 fixed at the end part of the pull rod 7, the upper end of the pull rod 7 is fixed at the bottom of the large fiber box 2, a guide groove 4 is formed in the surface of the fiber laying machine body 1, and the sealing core 8 slides in the guide groove 4 in a sealing mode.

Specifically, guide way 4 below sealed core 8 forms sealed air cavity, when lifting unit 6 promoted big fiber box 2 and rises, sealed core 8 releases the lower extreme atmospheric pressure of guide way 4, forms the negative pressure, thereby produce one when rising big fiber box 2 and draw and hold the power, and big fiber box 2 rises higher, draw and hold the power more big, played the purpose that stabilizes big fiber box 2 and rise, produce when avoiding big fiber box 2 to rise and slightly rock the phenomenon that influences the formation of cellosilk layer.

The upper inner wall of the guide groove 4 is fixedly provided with a pushing unit 9, and the lower end of the pushing unit 9 is fixedly provided with a height limiting plate 10.

Wherein, pushing unit 9 can drive limit for height board 10 and go up and down, when pushing unit 9 drives limit for height board 10 and goes up and down to different height, has restricted the rise height of sealed core 8, can conveniently adjust the rising highest height of big fiber box 2, pushing unit 9 can use devices such as cylinder or electric putter.

The guide mechanisms are arranged in two groups, and the two groups of guide mechanisms are arranged on two sides of the lifting mechanism.

In the device, two groups of guide mechanisms are symmetrically arranged, so that the stability of the large fiber box 2 during lifting is further improved.

The working principle is as follows: the device is used for controlling the concentration ratio of slurry, so that different slurries are utilized to manufacture fiber layers with different strengths, specifically, a sliding cover 18 above a lower hopper 17 is opened in a sliding manner, slurry is added into the lower end of a small fiber box 11, water is stored in a large fiber box 2, the small fiber box 11 is controlled to descend through a telescopic unit 13, so that the water flows over the small fiber box 11, the water directly enters the upper end of the small fiber box 11 from a water inlet hole 22, at the moment, a transmission unit 19 is started, a rubber partition plate 28 is driven to rotate through a rotating rod 27, a rubber ring is fixedly arranged at the inner ring of a power shell 14, the rubber ring is sleeved at the outer ring of the rotating rod 27 in an interference fit manner, therefore, when the rotating rod 27 rotates, the power shell 14 and the rubber partition plate 28 both rotate, when the power shell 14 rotates, gas generated by the centrifugal action can push the power shell 14 to float upwards due to the fact that the power shell is of a hemispherical shell structure with an opening at the lower end, thereby promote rubber partition plate 28 and remove to dwang 27 upper end, be provided with the pin 24 that blocks in rubber partition plate 28 top because of little fiber box 11 inner wall, therefore, when rubber partition plate 28 rebound, its outer lane can be stirred by pin 24 and turn over the book downwards, at this moment, the inside water of little fiber box 11 upper end can get into inside little fiber box 11 lower extreme, water and thick liquids mix, thereby the configuration is the thick liquid of certain concentration, treat that the thick liquid deposits the rear surface in little fiber box 11 and generates the cellosilk layer, cellosilk layer intensity and thickness that thick liquids concentration produces are different not the same, the cellosilk layer of convenient different thickness and intensity is twisted each other and is wound, superpose and form the different cellosilk layer or the cellosilk thread of intensity and toughness.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the utility model.

Claims (7)

1. The utility model provides a over-and-under type dress fiber case for spreading silk machine, includes spreading silk machine body (1), its characterized in that: the upper surface of one side of the fiber laying machine body (1) is provided with a large fiber box (2), a small fiber box device (3) is arranged in the large fiber box (2), a lifting mechanism and a guide mechanism are arranged at the bottom of the large fiber box (2), the small fiber box device (3) comprises a telescopic unit (13) fixed at the bottom of the large fiber box (2) and a small fiber box (11) fixed at the upper end of the telescopic unit (13), a box cover (20) is arranged above the small fiber box (11), the section of the box cover (20) is of an I-shaped structure, a ring groove (21) is formed at the periphery of the middle part of the box cover (20), a water inlet hole (22) communicated between the ring groove (21) and the inside of the small fiber box (11) is arranged at the bottom of the box cover (20), the outer ring of the lower end of the box cover (20) is integrally provided with a connecting ring (23) which is connected with an opening at the upper end of the small fiber box (11) in a threaded fit manner.

2. The lift type fiber box for the fiber spreading machine according to claim 1, wherein: fixed transmission unit (19) that is provided with on case lid (20), the lower extreme transmission connection of transmission unit (19) has the activity to pass case lid (20) and stretch into dwang (27) in little fiber case (11), the cover is equipped with rubber baffle (28) on dwang (27), nested and interference fit each other between rubber baffle (28) and dwang (27), the activity cover of lower extreme outer lane of dwang (27) is equipped with power shell (14) of activity laminating in rubber baffle (28) below, fixed welding has fender rod (24) of blockking at rubber baffle (28) upper surface on the inner wall of little fiber case (11), fender rod (24) are round rod structure and are circular array form at little fiber case (11) inner wall and are provided with the multiunit, and the tip of fender rod (24) is the hemisphere, is connected with two sets of blockking at rubber baffle (28) through screw-thread fit on dwang (27), The limiting nut (26) of the one side of keeping away from each other of power shell (14), rubber baffle (28) are sealed between little fiber box (11) and dwang (27), and the activity is laminated between the outer lane of rubber baffle (28) and little fiber box (11) inner wall.

3. The lift type fiber box for the fiber spreading machine according to claim 2, wherein: one side of little fiber box (11) is provided with down hopper (17), and the top opening of hopper (17) slides and is provided with sliding closure (18) down, the fixed pipe (16) that are provided with the intercommunication in little fiber box (11) inside of lower extreme of hopper (17), the side of closing at little fiber box (11) is inserted in pipe (16) activity, and the tip of pipe (16) is provided with restriction at the inside fibre pipe end (15) of little fiber box (11), the outside cover of flexible unit (13) is equipped with waterproof rubber sleeve (12), the bottom at the bottom of little fiber box (11) and big fiber box (2) are fixed respectively at the upper and lower both ends of waterproof rubber sleeve (12).

4. The lift type fiber box for the fiber spreading machine according to claim 1, wherein: the lifting mechanism comprises a lifting unit (6), a groove (5) is formed in the surface of the silk spreader body (1), the lower end of the lifting unit (6) is fixed to the bottom of the groove (5), and the upper end of the lifting unit (6) is fixed to the middle of the bottom surface of the large fiber box (2).

5. The lift type fiber box for the fiber spreading machine according to claim 1, wherein: the guiding mechanism comprises a pull rod (7) and a sealing core (8) fixed at the end of the pull rod (7), the upper end of the pull rod (7) is fixed at the bottom of the large fiber box (2), a guiding groove (4) is formed in the surface of the fiber spreading machine body (1), and the sealing core (8) slides in the guiding groove (4) in a sealing mode.

6. The lift type fiber box for the fiber spreading machine according to claim 5, wherein: the upper inner wall of the guide groove (4) is fixedly provided with a pushing unit (9), and the lower end of the pushing unit (9) is fixedly provided with a height limiting plate (10).

7. The lift type fiber box for the fiber spreading machine according to claim 6, wherein: the guide mechanisms are arranged in two groups, and the two groups of guide mechanisms are arranged on two sides of the lifting mechanism.

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