CN112976194A

CN112976194A - Bamboo charcoal fiber palm production equipment

Info

Publication number: CN112976194A
Application number: CN202110234455.XA
Authority: CN
Inventors: 史大毛
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-03-03
Filing date: 2021-03-03
Publication date: 2021-06-18
Anticipated expiration: 2041-03-03
Also published as: CN112976194B

Abstract

The invention provides bamboo carbon fiber palm production equipment, which structurally comprises a supporting table, a fixed disc, a heating tank, an end cover and a fixed rod, wherein the lower end of the fixed disc is fixedly embedded and fixed at the upper end of the supporting table, when the bamboo carbon fiber palm production equipment is used, moso bamboos needing to be heated and carbonized are placed in the heating tank, the end cover is sealed to heat the temperature in the heating tank, after the temperature in the equipment reaches a certain degree, the air pressure threshold value in the heating tank reaches a certain degree and the carbonization of the moso bamboos is completed, an opening and closing mechanism can be pushed to be opened due to air pressure, after the opening and closing mechanism is opened, the air in the equipment can be discharged through an opening and closing mechanism, the flow velocity of the air can be discharged from a slider, the slider is driven to rotate by the guidance of the slider, and the air in the equipment is discharged in a vortex shape by the, and the gas in the equipment is rapidly pumped through the high-speed flow of the vortex, so that the internal temperature of the equipment is increased and the pressure reduction speed is increased.

Description

Bamboo charcoal fiber palm production equipment

Technical Field

The invention relates to the field of bamboo charcoal fiber, in particular to bamboo charcoal fiber palm production equipment.

Background

Under the background of high-speed development of science and technology, various novel materials are developed and synthesized due to high-speed development of science and technology, and various novel materials generally have more excellent or various characteristics and are more excellent than the existing materials, wherein bamboo charcoal fiber is a novel material, and the bamboo charcoal fiber is more suitable for daily used textile goods due to the antibacterial characteristic of the bamboo charcoal fiber, but when the bamboo charcoal fiber is produced, moso bamboos are firstly placed in production equipment and are heated through high temperature in the production equipment, moisture in the moso bamboos is evaporated and carbonized into bamboo charcoal fiber brown, the subsequent processes of thread drawing and the like of the fiber brown are facilitated, the bamboo charcoal fiber is produced, but when the moso bamboos are carbonized at high temperature, air contained in the equipment is synchronously heated at high temperature, and after the air is heated at high temperature, the atmospheric pressure that can cause the inside air of equipment obtains increasing because of high temperature, and the inside temperature of equipment is through the room temperature decline gradually after the process of accomplishing high temperature carbonization to the end cover of unable direct opening equipment, because of the inside highly compressed reason, directly open the abrupt pressure release of end cover and can cause the inside atmospheric pressure of equipment to release fast, lead to inside fibre brown to erupt and go out, make equipment only can stand the cooling step-down, the process of unable quick completion cooling step-down.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides bamboo charcoal fiber palm production equipment, which solves the problems that after air is heated at high temperature, the air pressure of the air in the equipment is increased due to high temperature, the temperature in the equipment is gradually reduced through room temperature after the process of high-temperature carbonization is finished, an end cover of the equipment cannot be directly opened, and the sudden pressure relief of directly opening the end cover causes the rapid release of the air pressure in the equipment due to the high internal pressure, so that the fiber palm in the equipment is erupted, the equipment can only be stood for cooling and depressurizing, and the process of cooling and depressurizing cannot be rapidly finished.

Aiming at the above purpose, the invention is realized by the following technical scheme: the bamboo charcoal fiber palm production equipment structurally comprises a supporting table, a fixed disc, a heating tank, an end cover and a fixed rod, wherein the lower end of the fixed disc is fixedly embedded at the upper end of the supporting table, the lower end of the heating tank is fixedly welded at the upper end of the fixed disc, the lower end of the end cover is movably clamped at the upper end of the end cover, and one end of the fixed rod is fixed on the outer wall of the heating tank through a screw;

the end cover comprises a limiting ring, a pressure reducing mechanism and a cover disc, wherein the rear end of the limiting ring is movably clamped on the outer wall of the front end of the heating tank, the outer wall of the pressure reducing mechanism is fixedly embedded in the inner wall of the cover disc, and the outer wall of the cover disc is fixedly embedded in the inner wall of the limiting ring.

Preferably, the pressure reduction mechanism comprises fixed rings, connecting rods, a pressure discharge valve and an opening and closing mechanism, wherein the outer walls of the fixed rings are fixedly embedded in the inner wall of the cover plate, the outer walls of the connecting rods are fixedly welded to the inner wall of the fixed rings, the outer walls of the pressure discharge valve are fixedly embedded and clamped on the inner walls of the connecting rods, the outer walls of the opening and closing mechanism are fixedly embedded in the inner wall of the pressure discharge valve, the number of the connecting rods is three, and the three connecting rods are annularly arranged and fixed on the outer wall of the pressure discharge valve.

Preferably, the opening and closing mechanism comprises an arc-shaped rod, a derivative plate and an opening and closing device, wherein the inner wall of the arc-shaped rod is welded and fixed on the outer wall of the opening and closing device, the inner walls of the front end and the rear end of the derivative plate are fixedly embedded and fixed on the outer walls of the front end and the rear end of the opening and closing device, the opening and closing device is completely fixed on the inner wall of the pressure relief valve, and the arc-shaped rod is in a J-shaped structure when viewed.

Preferably, the opener is composed of a rotating arc plate, an embedded connecting rod, two positioning magnetic rods, two stretching magnetic rods and two positioning pins, wherein the outer walls of the front end and the rear end of the rotating arc plate are fixedly embedded between the derived plates, the outer wall of the embedded connecting rod is embedded and matched with the inner walls of the two ends of the rotating arc plate, one end of each positioning magnetic rod is fixedly embedded at the two ends of the embedded connecting rod, the inner wall of each stretching magnetic rod is fixed on the outer wall of each positioning pin in an interference mode, the outer walls of the front end and the rear end of each positioning pin are fixedly welded on the inner wall of the rotating arc plate.

Preferably, the pressure relief valve comprises a box body, an exhaust pipe and a guide disc, wherein the outer wall of the box body is fixedly embedded and clamped on the inner wall of the connecting and fixing rod, the exhaust pipe and the box body are of an integrated structure, and the outer wall of the guide disc is in nested fit with the inner wall of the box body.

Preferably, the guide disc comprises three limiting rings, a disc body, a rotary ball, sliders and guide rails, wherein the outer walls of the limiting rings are in nested fit with the inner wall of the box body, the outer wall of the disc body is fixedly embedded in the inner wall of the limiting rings, the outer wall of the rotary ball is movably clamped on the surface of the disc body, the outer walls of two ends of each slider are in nested fit with the inner wall of the disc body, the guide rails and the disc body are in an integrated structure, and the sliders are arranged on the inner wall of the disc body in an annular arrangement mode.

Preferably, the slider comprises a rotation guide device, positioning rods, balls, air outlet holes and balance plates, the outer walls of the two ends of the rotation guide device are fixedly embedded between the balance plates, the outer walls of the balls are in nested fit with the inner walls of the balance plates, the air outlet holes and the rotation guide device are of an integrated structure, the outer walls of the two ends of the balance plates are welded and fixed between the positioning rods, the outer walls of the positioning rods are in nested fit with the inner walls of the disc body, and the two positioning rods are arranged in parallel at the two ends of the rotation guide device.

Preferably, the rotation guide device comprises a ring body, a rotating ring, a rotating ball, a connecting and embedding seat and blades, wherein the outer wall of the ring body is fixedly embedded in the inner wall of the rotation guide device, the outer wall of the rotating ring is embedded and clamped in the inner wall of the connecting and embedding seat, the outer wall of the lower end of the rotating ball is in friction fit with the inner wall of the ring body, the outer wall of the lower end of the connecting and embedding seat is in embedded fit with the outer wall of the upper end of the rotating ball, the outer wall of each blade is welded and fixed in the inner wall of the connecting and embedding seat, the blades are of fin-shaped structures, three blades are arranged on the inner wall of the connecting.

Advantageous effects

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

when the device is used, the moso bamboos to be heated and carbonized are placed in the heating tank, the end covers are closed to heat the temperature in the heating tank, after the temperature in the device reaches a certain degree, the air pressure threshold value in the heating tank reaches a certain degree and the moso bamboos are carbonized, the opening and closing mechanism is pushed to be opened due to air pressure, after the opening and closing mechanism is opened, the air in the device is discharged through the opening and closing mechanism, the flow rate of the air is discharged from the slider, the slider is driven to rotate through the guidance of the slider, the air in the device is discharged in a vortex shape through the rotation of the slider, and the air in the device is rapidly pumped through the high-speed flow of the vortex, so that the temperature in the device and the pressure reduction speed are improved.

Drawings

Fig. 1 is a schematic structural diagram of bamboo charcoal fiber palm production equipment.

Fig. 2 is a schematic top view of the inventive end cap.

Fig. 3 is a schematic structural diagram of the pressure reducing mechanism of the invention.

Fig. 4 is a schematic structural diagram of the opening and closing mechanism of the invention.

Fig. 5 is a schematic sectional structure view of the opener of the invention.

Fig. 6 is a schematic structural diagram of the pressure relief valve of the present invention.

FIG. 7 is a schematic structural diagram of the indexing disk of the present invention.

Fig. 8 is a schematic view of the structure of the inventive slider.

Fig. 9 is a schematic cross-sectional structure diagram of the inventive spinner.

In the figure: support table-1, fixed disc-2, heating tank-3, end cover-4, fixed rod-5, limit ring-41, depressurization mechanism-42, cover disc-43, fixed ring-a 1, connecting rod-a 2, pressure-exhaust valve-a 3, opening and closing mechanism-a 4, arc rod-b 1, derivative plate-b 2, opening and closing device-b 3, arc rotating plate-c 1, embedded connecting rod-c 2, positioning magnetic rod-c 3, stretching magnetic ring-c 4, positioning pin-c 5, box-d 1, exhaust pipe-d 2, guide disc-d 3, limit ring-e 1, disc-e 2, rotating ball-e 3, slider-e 4, guide rail-e 5, guide rotator-f 1, positioning rod-f 2, air outlet ball-f 3, hole-f 4, balance plate-f 5, air outlet-f 3, air outlet valve-f 2, Ring-g 1, rotary ring-g 2, rotating ball-g 3, connecting seat-g 4 and blade-g 5.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are some, not all embodiments of the present invention, and all other embodiments obtained by those skilled in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Example 1

As shown in fig. 1 to 5, the invention provides bamboo charcoal fiber palm production equipment, which structurally comprises a supporting table 1, a fixed disc 2, a heating tank 3, an end cover 4 and a fixed rod 5, wherein the lower end of the fixed disc 2 is fixedly embedded at the upper end of the supporting table 1, the lower end of the heating tank 3 is fixedly welded at the upper end of the fixed disc 2, the lower end of the end cover 4 is movably clamped at the upper end of the end cover 4, and one end of the fixed rod 5 is fixed on the outer wall of the heating tank 3 through a screw;

the end cover 4 is composed of a limiting ring 41, a pressure reducing mechanism 42 and a cover disc 43, the rear end of the limiting ring 41 is movably clamped on the outer wall of the front end of the heating tank 3, the outer wall of the pressure reducing mechanism 42 is fixedly embedded on the inner wall of the cover disc 43, and the outer wall of the cover disc 43 is fixedly embedded on the inner wall of the limiting ring 41.

Wherein, pressure reduction mechanism 42 comprises solid fixed ring a1, even solid pole a2, pressure exhaust valve a3, mechanism a4 that opens and shuts, gu fixed ring a1 outer wall inlays the solid and is fixed in lid dish 43 inner wall, even solid pole a2 outer wall welded fastening in solid fixed ring a1 inner wall, pressure exhaust valve a3 outer wall inlays the solid block in even solid pole a2 inner wall, mechanism a4 outer wall nestification that opens and shuts is fixed in pressure exhaust valve a3 inner wall, even solid pole a2 is equipped with threely altogether, and the annular arrangement is fixed in pressure exhaust valve a3 outer wall, and the three-end presents triangle shape structure after fixing, makes pressure exhaust valve a 3's position more fixed, avoids being promoted by atmospheric pressure and the condition that position skew or collapse appear.

Wherein, mechanism a4 opens and shuts comprises arc pole b1, derived board b2, ware b3 that opens and shuts, arc pole b1 inner wall welded fastening is in ware b3 outer wall that opens and shuts, derived board b2 front and back both ends inner wall is inlayed fixedly in ware b3 front and back both ends outer wall, ware b3 that opens and shuts is fixed in pressure relief valve a3 inner wall completely, its structure is J style of calligraphy structure from the side is seen to arc pole b1, and the crookedness of J style of calligraphy structure makes the closing plate of upper end convenient in being connected to arc pole b 1.

The opener b3 comprises a rotating arc plate c1, an embedded connecting rod c2, a positioning magnetic rod c3, a stretching magnetic ring c4 and a positioning pin c5, wherein outer walls of front and rear ends of the rotating arc plate c1 are fixedly embedded between derivative plates b2, outer walls of embedded connecting rods c2 are nested and matched with inner walls of two ends of the rotating arc plate c1, one end of the positioning magnetic rod c3 is fixedly embedded at two ends of the embedded connecting rod c2, inner walls of the stretching magnetic ring c4 are fixedly fixed on outer walls of the positioning pin c5 in an interference manner, outer walls of front and rear ends of the positioning pin c5 are fixedly welded on inner walls of the rotating arc plate c1, two positioning magnetic rods c3 are arranged on two sides of the lower end of the stretching magnetic ring c4 in an opposite manner, the positioning magnetic rods c3 and the stretching magnetic ring c4 arranged at two ends are magnetic poles for magnetic adsorption, the positioning magnetic rods c3 are adsorbed by the adsorption magnetic poles, and the positioning rods 3.

The following examples are set forth: when the moso bamboos need to be processed, the moso bamboos are placed in the heating tank 3, after the moso bamboos are placed and filled, the end cover 4 is sealed at the upper end of the heating tank 3, the connecting position of the end cover 4 and the heating tank 3 is fixedly clamped through the fixing rod 5, the end cover 4 is completely sealed, after the sealing of the end cover 4 is completed, the inside of the heating tank 3 starts to be heated through starting equipment, the moso bamboos are carbonized through high temperature, when the inside of the equipment is heated, air can also move more actively and expand due to the action of high temperature, so that the air pressure inside the equipment is increased, after the carbonization process of the moso bamboos is completed, the air pressure inside the equipment can rise to a certain threshold value, the air pressure pushes air flow to enter the pressure reducing mechanism 42, and due to the reduction of the diameter, the air pressure can be increased closer to one part and pushes the opening and closing mechanism a4, the outer ring of the sealing plate arranged on the opening and closing mechanism a4 is pushed due to larger area, the center is bent and conducted on the arc rod b1, the opening and closing device b3 is triggered through bending of the arc rod b1, the rotating arc plate c1 is driven to rotate and bend by taking the embedded connecting rod c2 as the center, and after the extremely high air pressure inside the equipment is reduced, the rotating arc plate c1 is pulled to rotate and reset by the magnetic adsorption and stretching of the stretching magnetic ring c4 on the positioning magnetic rod c 3.

Example 2

As shown in fig. 6 to 9: the pressure relief valve a3 comprises box body d1, blast pipe d2, lead position dish d3, box body d1 outer wall is embedded and is blocked in company's solid pole a2 inner wall, blast pipe d2 is the integral structure with box body d1, lead position dish d3 outer wall nested fit in box body d1 inner wall.

The guide disc d3 comprises a limit ring e1, a disc body e2, a rotating ball e3, a slider e4 and a guide rail e5, the outer wall of the limit ring e1 is nested and matched with the inner wall of the box body d1, the outer wall of the disc body e2 is fixedly embedded and fixed on the inner wall of the limit ring e1, the outer wall of the rotating ball e3 is movably clamped on the surface of the disc body e2, the outer walls of two ends of the slider e4 are nested and matched with the inner wall of the disc body e2, the guide rail e5 and the disc body e2 are of an integrated structure, three sliders e4 are arranged on the inner wall of the disc body e2 in an annular mode, and the sliders e4 arranged at the three ends can pump air pressure in the device and drive the disc body e2 to rotate under.

The slider e4 is composed of a rotation guide device f1, positioning rods f2, balls f3, air outlet holes f4 and a balance plate f5, outer walls of two ends of the rotation guide device f1 are fixedly embedded between balance plates f5, outer walls of balls f3 are matched with the inner wall of the balance plate f5 in a nested mode, the air outlet holes f4 and the rotation guide device f1 are of an integrated structure, outer walls of two ends of the balance plate f5 are fixedly welded between the positioning rods f2, outer walls of the positioning rods f2 are matched with the inner wall of a disc body e2 in a nested mode, the two positioning rods f2 are arranged in parallel at two ends of the rotation guide device f1, and the positioning rods f2 arranged in parallel can limit the sliding position of the rotation guide device f1 after being assembled, so that the position deviation of the rotation guide device f1 is avoided.

The guide rotator f1 comprises a ring body g1, a rotating ring g2, a rotating ball g3, a connecting and embedding seat g4 and blades g5, wherein the outer wall of the ring body g1 is fixedly embedded in the inner wall of the guide rotator f1, the outer wall of the rotating ring g2 is embedded and clamped in the inner wall of the connecting and embedding seat g4, the outer wall of the lower end of the rotating ball g3 is in friction fit with the inner wall of the ring body g1, the outer wall of the lower end of the connecting and embedding seat g4 is embedded in the outer wall of the upper end of the rotating ball g3, the outer wall of the blades g5 is fixedly welded in the inner wall of the connecting and embedding seat g4, the blades g5 are in a fin-shaped structure, three blades are arranged in an annular shape and matched with the inner wall of the connecting and embedding seat g4 in an inclined state, and the blades g5 in the inclined assembly and the fin-shaped structure are driven by air flow to rotate by the guide of the.

The following examples are set forth: after the carbonization process of the moso bamboo is completed, the air pressure in the device is greatly higher than the external air pressure due to long-time heating in the device, when the pressure threshold is reached and the device starts to discharge, the air flow pushed by the air pressure enters the box body d1 and passes through the guide disk d3, when the air flow enters the guide disk d3 and is discharged through the guide disk d3, the air flow flowing at high speed enters the slider e4, the air flow flowing at high speed enters the slider e4 and then contacts with the blade g5 in the rotator f1, so that the blade g5 rotates under the influence of the driving force of the air flow, the rotation of the blade 5 drives the rotating ring g2 and the embedding seat g4 to rotate, the rotation of the blade g5 drives the circulating air flow to flow in a vortex state, and the inertia force appearing towards one end of the rotating blade g1 is driven to slide along the center of the guide rail e5 e2, the slider e4 is moved to the center of the disc body e2, the three-column vortex cyclone is fused and drives the rotating ring g2 to rotate, the air flow discharged out of the device is in a cyclone-mounted structure rotating at high speed through the rotation of the rotating ring g2, the air pressure is reduced due to the fact that the air flowing speed outside the cyclone is high, the air inside the device is rapidly pumped through the reduced air pressure, the air pressure inside the device is rapidly reduced, the temperature inside the device is also pumped out due to the high-speed flowing of the air under the high-speed flowing of the air, and the temperature is rapidly reduced.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The bamboo charcoal fiber palm production equipment structurally comprises a supporting table (1), a fixed disc (2), a heating tank (3), an end cover (4) and a fixed rod (5), wherein the lower end of the fixed disc (2) is fixedly embedded at the upper end of the supporting table (1), the lower end of the heating tank (3) is fixedly welded at the upper end of the fixed disc (2), the lower end of the end cover (4) is movably clamped at the upper end of the end cover (4), and one end of the fixed rod (5) is fixed on the outer wall of the heating tank (3) through a screw;

the end cover (4) is composed of a limiting ring (41), a depressurization mechanism (42) and a cover disc (43), the rear end of the limiting ring (41) is movably clamped on the outer wall of the front end of the heating tank (3), the outer wall of the depressurization mechanism (42) is fixedly embedded on the inner wall of the cover disc (43), and the outer wall of the cover disc (43) is fixedly embedded on the inner wall of the limiting ring (41).

2. The bamboo charcoal fiber palm production equipment according to claim 1, characterized in that: decompression mechanism (42) is by deciding solid ring (a1), even solid pole (a2), pressure discharge valve (a3), mechanism (a4) that opens and shuts and constitutes, decide solid ring (a1) outer wall and inlay to be fixed in lid dish (43) inner wall, even solid pole (a2) outer wall welded fastening in decides solid ring (a1) inner wall, pressure discharge valve (a3) outer wall is inlayed and is fixed the block in even solid pole (a2) inner wall, mechanism (a4) outer wall nestification that opens and shuts is fixed in pressure discharge valve (a3) inner wall.

3. The bamboo charcoal fiber palm production equipment according to claim 2, characterized in that: mechanism (a4) comprises arc pole (b1), derived board (b2), ware (b3) that opens and shuts, arc pole (b1) inner wall welded fastening is in ware (b3) outer wall that opens and shuts, derived board (b2) front and back both ends inner wall is embedded to be fixed in ware (b3) front and back both ends outer wall, ware (b3) that opens and shuts is fixed in pressure relief valve (a3) inner wall completely.

4. The bamboo charcoal fiber palm production equipment according to claim 3, characterized in that: the opener (b3) is composed of a rotary arc plate (c1), an embedded connecting rod (c2), a positioning magnetic rod (c3), a stretching magnetic ring (c4) and a positioning pin (c5), wherein the outer walls of the front end and the rear end of the rotary arc plate (c1) are fixedly embedded between derived plates (b2), the outer wall of the embedded connecting rod (c2) is embedded and matched with the inner walls of the two ends of the rotary arc plate (c1), one end of the positioning magnetic rod (c3) is fixedly embedded at the two ends of the embedded connecting rod (c2), the inner wall of the stretching magnetic ring (c4) is fixed on the outer wall of the positioning pin (c5) in an interference mode, and the outer walls of the front end and the rear end of the positioning pin (c5) are.

5. The bamboo charcoal fiber palm production equipment according to claim 2, characterized in that: pressure relief valve (a3) comprises box body (d1), blast pipe (d2), guide dish (d3), box body (d1) outer wall embedded joint in even solid pole (a2) inner wall, blast pipe (d2) and box body (d1) structure as an organic whole, guide dish (d3) outer wall nested fit in box body (d1) inner wall.

6. The bamboo charcoal fiber palm production equipment according to claim 5, characterized in that: the guide disc (d3) comprises a limit ring (e1), a disc body (e2), a rotating ball (e3), a slider (e4) and a guide rail (e5), wherein the outer wall of the limit ring (e1) is nested and matched with the inner wall of the box body (d1), the outer wall of the disc body (e2) is fixedly embedded and fixed on the inner wall of the limit ring (e1), the outer wall of the rotating ball (e3) is movably clamped on the surface of the disc body (e2), the outer walls of the two ends of the slider (e4) are nested and matched with the inner wall of the disc body (e2), and the guide rail (e5) and the disc body (e2) are of an integrated structure.

7. The bamboo charcoal fiber palm production equipment according to claim 6, characterized in that: the slider (e4) consists of a rotation guide device (f1), a positioning rod (f2), a ball (f3), an air outlet hole (f4) and a balance plate (f5), wherein the outer walls of two ends of the rotation guide device (f1) are fixedly embedded between the balance plates (f5), the outer wall of the ball (f3) is in nested fit with the inner wall of the balance plate (f5), the air outlet hole (f4) and the rotation guide device (f1) are of an integrated structure, the outer walls of two ends of the balance plate (f5) are welded and fixed between the positioning rods (f2), and the outer wall of the positioning rod (f2) is in nested fit with the inner wall of the tray body (e 2).

8. The bamboo charcoal fiber palm production equipment according to claim 7, characterized in that: the rotating guide device (f1) is composed of a ring body (g1), a rotating ring (g2), a rotating ball (g3), a connecting and embedding seat (g4) and a blade (g5), wherein the outer wall of the ring body (g1) is fixedly embedded in the inner wall of the rotating guide device (f1), the outer wall of the rotating ring (g2) is embedded and clamped in the inner wall of the connecting and embedding seat (g4), the outer wall of the lower end of the rotating ball (g3) is in friction fit with the inner wall of the ring body (g1), the outer wall of the lower end of the connecting and embedding seat (g4) is in embedded fit with the outer wall of the upper end of the rotating ball (g3), and the outer wall of the blade (g5) is fixedly welded to the inner wall.