CN112934420B

CN112934420B - Gunny pulp biological fiber blasting crushing centrifuge and blasting method

Info

Publication number: CN112934420B
Application number: CN202110136717.9A
Authority: CN
Inventors: 曾彩霞
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-10-12
Filing date: 2019-10-12
Publication date: 2023-01-03
Anticipated expiration: 2039-10-12
Also published as: CN112934420A; CN110586283B; CN110586283A

Abstract

The invention discloses a gunny biological fiber blasting crushing centrifuge and a blasting method, the structure of the centrifuge comprises a bottom fixed seat, a stable shell and a centrifugal column, the bottom end of the stable shell is welded with the upper surface of the bottom fixed seat and is positioned on the same axis, the stable shell drives the centrifugal column to rotate, a control column drives a centrifugal support rod along a bottom pocket seat to drag a spur blasting cylinder to carry out centrifugal operation in the stable shell, the spur blasting cylinder is clamped between the outer surface of an outward pushing arc opening and a fixed extension head, when the spur blasting cylinder rolls, a centrifugal heavy ball enclosed in the convex blasting cylinder will rotate, a certain contact force is given to the part to push the part to the impulsive direction according to the rolled part, the shell pushes the arc opening outwards, required deformation is generated according to the force to generate deformation, the outward pushing arc opening will push the gunny fibers clamped on the outer surface outwards, when the gunny fibers wrap the peripheral fibers and are abutted between the spurs, the centrifugal operation can push the water along the inner protrusions to the outer surface while the outward.

Description

Gunny pulp biological fiber blasting crushing centrifuge and blasting method

The invention relates to a divisional application of a gunny biological fiber blasting crushing centrifuge, which has an application date of 2019, 10, 12 and an application number of CN 201910966632.6.

Technical Field

The invention belongs to the field of biological centrifugation, and particularly relates to a gunny biological fiber blasting crushing centrifuge and a blasting method.

Background

When the gunny pulp fiber of the regenerated fiber in the biological fiber needs blasting centrifugal treatment, the biological fiber is placed in the equipment, and blasting centrifugal treatment is carried out on the gunny pulp fiber in the equipment through a centrifugal roller with convex thorns and high-speed rotation.

Based on the findings of the inventor, the existing biological fiber blasting centrifuge mainly has the following defects, such as:

when the guniting fibers generate Xu Shuifen in the process of blasting, the guniting fibers at the periphery can be wrapped together and clamped between the convex thorns of the centrifugal roller, and the clamped fibers and the fibers at the outer side are difficult to obtain the treatment effect of the convex thorns in the process of continuous rolling.

Therefore, a gunny biological fiber blasting and crushing centrifuge and a blasting method are needed to be provided.

Disclosure of Invention

In order to solve the problem that in the prior art, when the guniting fibers are exploded, some Xu Shuifen are generated, the guniting fibers at the periphery are wrapped together and clamped between the convex thorns of the centrifugal roller, and in the process of continuous rolling, the clamped fibers and the fibers at the outer side are difficult to obtain the treatment effect of the convex thorns.

The invention relates to a gunny pulp biological fiber blasting crushing centrifuge and a blasting method, and aims and effects thereof are achieved by the following specific technical means:

the structure of the device comprises a base fixing seat, a fixing shell, a centrifugal column, an operation end and a fixing and control sleeve.

The bottom end of the stabilizing shell is welded with the upper surface of the bottom fixing seat and is positioned on the same axis, the fixing control sleeve is nested on the outer surface of the stabilizing shell, and the upper surface of the centrifugal column is connected with the lower surface of the control end.

The centrifugal column comprises a bottom pocket seat, a central control column, a centrifugal support rod and a convex thorn blasting drum, wherein the central control column is embedded into the bottom pocket seat and is positioned on the same axis, the centrifugal support rod is welded on the outer surface of the central control column, and one end, far away from the central control column, of the centrifugal support rod is connected with the convex thorn blasting drum.

As a further improvement of the invention, the convex-thorn blasting cartridge comprises a convex-pressure port, inner apexes, centrifugal heavy balls and a hollow port, wherein the inner apexes are abutted against the inner wall of the convex-pressure port, the inner apexes are welded on the outer surface of the centrifugal heavy balls, the centrifugal heavy balls are positioned in the hollow port, the convex-pressure ports are circularly and uniformly distributed, and six inner apexes are circularly and uniformly distributed.

As a further improvement of the invention, the inner tip comprises an outer pocket shell, three fixed corners, a jacking string, a flower exhibition core and a shell, wherein the three fixed corners are embedded in the outer pocket shell, the jacking string is connected with the three fixed corners, the flower exhibition core is arranged in the shell, the jacking string is of a spherical structure, and the flower exhibition core is circularly and uniformly distributed.

As a further improvement of the invention, the convex pressure port comprises a raised head, a fixed extending head, a support body and an outward pushing arc port, wherein the raised head is arranged on the outer surface of the fixed extending head, one end of the fixed extending head, which is far away from the raised head, is connected with the support body, the outward pushing arc port is arranged between the support bodies, two raised heads are arranged, and two support bodies are arranged.

As a further improvement of the present invention, the centrifugal heavy ball includes a rolling ball core, an outer rolling shell, a heavy shell, an inner punching ball, a corner protector, and a top protection ball, the rolling ball core is embedded in the outer rolling shell, the outer surface of the outer rolling shell is adhered with the top protection ball, the inner punching ball is installed in the heavy shell, the corner protector is adhered to the outer surface of the inner punching ball, the heavy shell is of a circular structure, the inner punching ball is of a hemispherical structure, and the outer rolling shell is of a circular structure.

As a further improvement of the invention, the outward pushing arc port comprises an outward convex arc strip, bent angle protectors, unfolding pushing angles, a bending ball and a top port, the outward convex arc strip is connected with the bent angle protectors, the bent angle protectors are arranged on two sides of the bending ball, the unfolding pushing angles are connected with the top port, five bending balls are arranged, and two bending angle protectors are arranged.

Compared with the prior art, the invention has the following beneficial effects:

the control column drives the centrifugal column to start rotating, the control column drives the centrifugal support rod to drag the spur blasting drum to carry out centrifugal operation inside the stable shell along the bottom pocket seat, the spur blasting drum is clamped between the outer surface of an outward pushing arc opening and the fixed extending head, when the spur blasting drum rolls, a centrifugal heavy ball wrapped inside the spur blasting drum can also rotate along with the rotation, the buffering and protecting effects can be achieved, when the heavy shell is driven by the outer rolling shell, an inner tip can be driven to roll inside the hollow opening, a certain resisting and touching force is given to the spur blasting drum to push the portion of the spur blasting drum to the direction of impulsive force according to the rolled portion, the shell pushes the outward pushing arc opening to generate required deformation according to the resisting force, deformation is generated, the outward pushing arc opening is used for outwards pushing the hemp pulp fibers clamped on the outer surface, when the hemp pulp fibers generate moisture to clamp the fibers on the periphery between the spurs, and the centrifugal operation rolls and simultaneously pushes the spurs out the situation of the spurs by the inner convex body to push the spurs down the spurs.

Drawings

Fig. 1 is a schematic structural diagram of a gunny pulp biological fiber blasting crushing centrifuge and a blasting method.

FIG. 2 is a schematic view of a front view of the internal structure of a centrifugal column according to the present invention.

Fig. 3 is a schematic top view of the internal structure of a bayonet blasting cartridge according to the present invention.

Fig. 4 is a front view of the inner tip according to the present invention.

FIG. 5 is a schematic front view of an inner structure of a convex pressure port according to the present invention.

Fig. 6 is a schematic front view of the internal structure of a centrifugal heavy ball according to the present invention.

FIG. 7 is a front view of the inner structure of an extrapolation arc according to the present invention.

In the figure: the device comprises a bottom fixed seat-11, a stable shell-22, a centrifugal column-33, an operation end-44, a fixed control sleeve-55, a bottom pocket seat-aa 1, a middle control column-aa 2, a centrifugal supporting rod-aa 3, a convex stabbing blasting barrel-aa 4, a convex pressure port-tt 01, an inner top tip-tt 02, a centrifugal heavy ball-tt 03, a hollow port-tt 04, an outer pocket shell-ww 10, a three fixed angle-ww 20, a top supporting string-ww 30, a flower expanding core-ww 40, an outer shell-ww 50, a raised head-h 11, a fixed extension head-h 22, a support body-h 33, an outer pushing arc port-h 44, a rolling ball core-as 1, an outer rolling shell-as 2, a heavy shell-as 3, an inner punching ball-as 4, a corner protector-as 5, a top protecting ball-as 6, an outer convex arc strip-a 1a, a corner-a 2a, a pushing corner protector-a 3a, a curved ball-4 a, and a top opening-5 a.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 7:

the invention provides a gunny pulp biological fiber blasting crushing centrifuge and a blasting method, and the structure of the centrifuge comprises a bottom fixing base 11, a stabilizing shell 22, a centrifugal column 33, an operation end 44 and a fixing control sleeve 55.

The bottom end of the stabilizing shell 22 is welded with the upper surface of the base 11 and is positioned on the same axis, the fixing and controlling sleeve 55 is nested on the outer surface of the stabilizing shell 22, and the upper surface of the centrifugal column 33 is connected with the lower surface of the control end 44.

The centrifugal column 33 comprises a bottom pocket seat aa1, a middle control column aa2, a centrifugal support rod aa3 and a convex burst barrel aa4, the middle control column aa2 is embedded in the bottom pocket seat aa1 and located on the same axis, the centrifugal support rod aa3 is welded on the outer surface of the middle control column aa2, and one end, far away from the middle control column aa2, of the centrifugal support rod aa3 is connected with the convex burst barrel aa 4.

The bayonet blasting barrel aa4 comprises a convex pressing port tt01, inner apexes tt02, a centrifugal heavy ball tt03 and a hollow port tt04, wherein the inner apexes tt02 abut against the inner wall of the convex pressing port tt01, the inner apexes tt02 are welded on the outer surface of the centrifugal heavy ball tt03, the centrifugal heavy ball tt03 is located inside the hollow port tt04, the convex pressing ports tt01 are uniformly distributed in a circular shape, six inner apexes tt02 are uniformly distributed in a circular shape, the convex pressing ports tt01 stretch to a certain extent according to the gravity and the position abutted inside, and the inner apexes tt02 push the position of the inner apexes tt02 towards impulsive force by giving certain abutting force according to the rolled position.

The inner tip tt02 comprises an outer pocket shell ww10, three fixed angles ww20, a jacking string ww30, a flower-exhibition core ww40 and an outer shell ww50, wherein the three fixed angles ww20 are embedded into the outer pocket shell ww10, the jacking string ww30 is connected with the three fixed angles ww20, the flower-exhibition core ww40 is installed inside the outer shell ww50, the jacking string ww30 is of a spherical structure, the flower-exhibition core ww40 is circularly and uniformly distributed, the three fixed angles ww20 are used for stabilizing the overall large force, the jacking string ww30 plays a role in protection and buffering when the overall large force is applied to the jacking string ww30, and the flower-exhibition core ww40 enables the outer layer to be harder and more stable to bear the force on a contact part.

The convex pressure port tt01 comprises a raised head h11, a fixed extension head h22, a support body h33 and an outward push arc port h44, the raised head h11 is arranged on the outer surface of the fixed extension head h22, one end, far away from the raised head h11, of the fixed extension head h22 is connected with the support body h33, the outward push arc port h44 is arranged between the support bodies h33, two raised heads h11 are arranged, two support bodies h33 are arranged, the raised head h11 plays a role in protecting a joint part, the fixed extension head h22 gives main driving force to the support body h33, the support body h33 enables the joint part to have a certain stress point, and the outward push arc port h44 generates required deformation according to the resisting force.

The centrifugal heavy ball tt03 comprises a rolling ball core as1, an outer rolling shell as2, a heavy shell as3, an inner punching ball as4, a protective angle as5 and a top protective ball as6, wherein the rolling ball core as1 is embedded in the outer rolling shell as2, the top protective ball as6 is attached to the outer surface of the outer rolling shell as2, the inner punching ball as4 is installed in the heavy shell as3, the protective angle as5 is attached to the outer surface of the inner punching ball as4, the heavy shell as3 is of a circular ring structure, the inner punching ball as4 is of a hemispherical structure, the outer rolling shell as2 is of a circular ring structure, the outer rolling shell as2 protects and holds objects in the inner punching ball as3, the rolling ball core as1 changes according to the change of the gravity center, so that the gravity center of the whole is driven to deviate, the inner punching ball as4 performs a certain force buffering and returning force on the objects which are hit by the inner punching ball as4, and the protective angle as5 performs a force to achieve a protection effect at a joint part.

The outward-pushing arc opening h44 comprises an outward-protruding arc strip a1a, a bent angle bead a2a, an expanding and pushing angle a3a, a curved ball a4a and a top opening a5a, wherein the outward-protruding arc strip a1a is connected with the bent angle bead a2a, the bent angle beads a2a are installed on two sides of the curved ball a4a, the expanding and pushing angle a3a is connected with the top opening a5a, five curved balls a4a are arranged, two curved angle beads a2a are arranged, the expanding and pushing angle a3a plays a role of expanding and limiting when a joint part moves, the curved angle bead a2a gives a certain reaction force to the curved angle bead a, and the outward-protruding arc strip a1a plays a role of expanding and stretching according to the received force, so that the outward-pushing angle a certain outward-expanding effect is achieved.

The specific use mode and function of the embodiment are as follows:

in the invention, the gunny pulp fiber is placed in the stabilizing shell 22, the control end 44 is controlled to drive the centrifugal column 33 to rotate, wherein the control column aa2 drives the centrifugal supporting rod aa3 to drive the spur blasting barrel aa4 to carry out centrifugal operation in the stabilizing shell 22 along the bottom pocket seat aa1, the raised head h11 on the convex pressure port tt01 is supported by the retaining head h22 to blast the gunny pulp fiber on the inner layer, the gunny pulp fiber generates certain moisture in the process of the centrifugal blasting drum-tamping, the fiber adhered to the periphery wraps the fiber and is clamped between the outer surface of the outer pushing arc port h44 and the retaining head h22, and when the spur blasting barrel aa4 rolls, the centrifugal heavy ball tt03 in the pocket also rotates, the rolling ball core as1 is driven by the force thrown by rolling to push the outer rolling shell as2 inside the heavy shell as3, the collision between the top protecting ball as6 and the inner punching ball as4 plays a role in buffering and protection, when the heavy shell as3 is driven by the outer rolling shell as2, the inner tip tt02 is driven to roll inside the hollow port tt04, the outer pocket shell ww10 pushes the splayed core ww40 by the solid force of the three solid angles ww20, the outer shell ww50 pushes the arc port h44 outwards, the bending ball a4a is pushed by the top port a5a, the outer convex arc strip a1a of the outer shell is pushed outwards, the bending protecting angle a2a rotates and expands to generate deformation, and the outer push arc port h44 pushes out the hemp pulp fibers clamped on the outer surface.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a broken centrifuge of gunny pulp biological fibre blasting which the structure includes solid seat of base (11), stabilizes shell (22), centrifugation post (33), controls end (44), solid accuse cover (55), its characterized in that:

the bottom end of the stabilizing shell (22) is welded with the upper surface of the base (11) and is positioned on the same axis, the fixing and control sleeve (55) is nested on the outer surface of the stabilizing shell (22), and the upper surface of the centrifugal column (33) is connected with the lower surface of the control end (44);

the centrifugal column (33) comprises a bottom pocket seat (aa 1), a middle control column (aa 2), a centrifugal support rod (aa 3) and a convex-thorn blasting barrel (aa 4), the middle control column (aa 2) is embedded in the bottom pocket seat (aa 1) and is positioned on the same axis, the centrifugal support rod (aa 3) is welded on the outer surface of the middle control column (aa 2), and one end, far away from the middle control column (aa 2), of the centrifugal support rod (aa 3) is connected with the convex-thorn blasting barrel (aa 4);

the convex-thorn blasting cartridge (aa 4) comprises a convex pressure port (tt 01), an inner tip (tt 02), a centrifugal heavy ball (tt 03) and a hollow port (tt 04), wherein the inner tip (tt 02) abuts against the inner wall of the convex pressure port (tt 01), the inner tip (tt 02) is welded on the outer surface of the centrifugal heavy ball (tt 03), and the centrifugal heavy ball (tt 03) is located inside the hollow port (tt 04).

2. The gunny-pulp bio-fiber bursting fragmentation centrifuge as claimed in claim 1, wherein: the inner tip (tt 02) comprises an outer pocket shell (ww 10), three fixed angles (ww 20), a jacking string (ww 30), a flower spreading core (ww 40) and an outer shell (ww 50), wherein the three fixed angles (ww 20) are embedded into the outer pocket shell (ww 10), the jacking string (ww 30) is connected with the three fixed angles (ww 20), and the flower spreading core (ww 40) is installed inside the outer shell (ww 50).

3. The gunny-pulp bio-fiber bursting fragmentation centrifuge as claimed in claim 1, wherein: the convex pressure port (tt 01) comprises a raised head (h 11), a fixed extension head (h 22), a support body (h 33) and an outward pushing arc port (h 44), the raised head (h 11) is installed on the outer surface of the fixed extension head (h 22), one end, far away from the raised head (h 11), of the fixed extension head (h 22) is connected with the support body (h 33), and the outward pushing arc port (h 44) is installed between the support bodies (h 33).

4. The gunny-pulp bio-fiber bursting fragmentation centrifuge as claimed in claim 1, wherein: the centrifugal heavy ball (tt 03) comprises a rolling ball core (as 1), an outer rolling shell (as 2), a heavy shell (as 3), an inner punching ball (as 4), a protective angle (as 5) and a top protective ball (as 6), wherein the rolling ball core (as 1) is embedded into the outer rolling shell (as 2), the outer surface of the outer rolling shell (as 2) is attached with the top protective ball (as 6), the inner punching ball (as 4) is arranged in the heavy shell (as 3), and the protective angle (as 5) is attached to the outer surface of the inner punching ball (as 4).

5. The blasting method of the gunny biological fiber blasting crushing centrifuge as claimed in any one of claims 1 to 4, wherein:

placing the hemp pulp fibers in a stabilizing shell (22), and driving a centrifugal column (33) to start rotating by controlling a control end (44), wherein a control column (aa 2) drives a centrifugal support rod (aa 3) to drag a convex thorn blasting drum (aa 4) to carry out centrifugal operation in the stabilizing shell (22) along a bottom pocket seat (aa 1), a raised head (h 11) on a convex pressure port (tt 01) is supported by a fixed extension head (h 22), the hemp pulp fibers on the inner layer are blasted, certain moisture is generated in the hemp pulp fibers in the process of carrying out centrifugal blasting and tamping the drum, the fibers are adhered to the peripheral fibers to wrap the fibers and are clamped between the outer surface of an outward push arc port (h 44) and the fixed extension head (h 22);

when the convex explosion tube (aa 4) rolls, the centrifugal heavy ball (tt 03) wrapped inside the convex explosion tube can also rotate, so that the rolling ball core (as 1) is driven by the force thrown by rolling to push the outer rolling shell (as 2) inside the heavy shell (as 3), the collision between the top protection ball (as 6) and the inner punching ball (as 4) can play a role in buffering and protection, when the heavy shell (as 3) is driven by the outer rolling shell (as 2) to rotate, the inner tip (tt 02) can be driven to roll inside the hollow port (tt 04), the solid force of the three solid angles (ww 20) can drive the outer wrapping shell (ww 10) to push the splayed core (ww 40), the outer shell (ww 50) can push the arc port (h 44) to open, the curved deformation ball (a 4 a) is pushed through the top port (a 5 a), the arc strip (a 1 a) is pushed outwards, the protection angle (a) is pushed outwards, and the outer surface of the outer bending ball (tt 2 a) can be pushed outwards to deform to generate a fiber slurry.