阅读说明：本技术 一种竹炭纤维棕生产设备 (Bamboo charcoal fiber palm production equipment ) 是由 邹浩 于 2020-11-27 设计创作，主要内容包括：本发明公开了一种竹炭纤维棕生产设备,其结构包括烘干机构、放置台、机体,烘干机构嵌固安装在机体的正上方,放置台镶嵌设于烘干机构的下端面,机体安装在放置台的下端面,连通管与衔接管衔接处的联动块设有遮掩片与活塞机构,在受连通管气压推动时,一端的遮掩片会受力向中间移动,在移动的同时通过活动条带动连接轴与活塞片挤压位于活塞管内的空气,而另一端的活塞片会受力一同带动另一端的遮掩片向中间聚拢,使位于电机内的纤维能够均匀的收到热气的烘干。(The invention discloses bamboo charcoal fiber palm production equipment which structurally comprises a drying mechanism, a placing table and a machine body, wherein the drying mechanism is embedded and fixedly arranged right above the machine body, the placing table is embedded and arranged on the lower end face of the drying mechanism, the machine body is arranged on the lower end face of the placing table, a linkage block at the joint of a communicating pipe and a connecting pipe is provided with a shielding piece and a piston mechanism, when the linkage block is pushed by air pressure of the communicating pipe, the shielding piece at one end moves towards the middle under stress, a connecting shaft and the piston piece are driven by a movable strip to extrude air in the piston pipe while moving, the piston piece at the other end drives the shielding piece at the other end to gather towards the middle under stress, and fibers in a motor can be uniformly dried by hot air.)

1. The bamboo charcoal fiber palm production equipment structurally comprises a drying mechanism (1), a placing table (2) and a machine body (3), wherein the drying mechanism (1) is fixedly embedded above the machine body (3), the placing table (2) is embedded in the lower end face of the drying mechanism (1), and the machine body (3) is arranged on the lower end face of the placing table (2); the method is characterized in that:

drying mechanism (1) is including conducting wire (11), protection machanism (12), motor (13), air-blower (14), conducting wire (11) are inlayed and are being connected the left side terminal surface of air-blower (14), protection machanism (12) are inlayed and are located air-blower (14) under, motor (13) are inlayed and are installed directly over protection machanism (12), air-blower (14) are inlayed and are located the right side of motor (13).

2. The bamboo charcoal fiber palm production equipment according to claim 1, wherein the protection mechanism (12) comprises a shell (121), an air diffusion layer (122) and a shielding mechanism (123), the shell (121) is embedded and wrapped on the outer end face of the shielding mechanism (123), the air diffusion layer (122) is embedded and arranged right above the shielding mechanism (123), and the shielding mechanism (123) is embedded, clamped and installed on the inner lower end face of the protection mechanism (12).

3. The bamboo charcoal fiber palm production equipment according to claim 2, wherein the air dissipation layer (122) comprises a linkage block (221), a rubber ring (222), a silk screen layer (223), a communication pipe (224) and a connection pipe (225), the linkage block (221) is embedded in the lower end face of the inner side of the communication pipe (224), the rubber ring (222) is symmetrically installed right above the silk screen layer (223), the silk screen layer (223) is embedded in the right above the connection pipe (225), the connection pipe (224) is embedded in and clamped under the rubber ring (222), and the connection pipe (225) is symmetrically installed on the left side and the right side of the lower end of the communication pipe (224).

4. The bamboo charcoal fiber palm production equipment according to claim 3, wherein the linkage block (221) comprises shielding sheets (211), movable strips (212), an embedding plate (213), an air outlet (214) and a piston mechanism (215), the shielding sheets (211) are symmetrically installed at the left end and the right end of the piston mechanism (215), the movable strips (212) are fixedly installed at the outer side end face of the shielding sheets (211), the air outlet (214) is embedded and clamped at the inner side end face of the embedding plate (213), the air outlet (214) is symmetrically installed at the left end and the right end of the piston mechanism (215), and the piston mechanism (215) is connected with the movable strips (212) in an embedded and clamped manner.

5. The bamboo charcoal fiber palm production equipment according to claim 4, wherein the piston mechanism (215) comprises a piston tube (151), a connecting shaft (152) and a piston sheet (153), the piston sheet (153) is mounted on the inner side end surface of the piston tube (151) in an embedded and clamped mode, the connecting shaft (152) is fixedly mounted on the outer side end surface of the piston sheet (153) in an embedded mode, and the piston sheet (153) is mounted on the inner side end surface of the piston mechanism (215) in an embedded mode.

6. The bamboo charcoal fiber palm production equipment according to claim 2, wherein the shielding mechanism (123) comprises arc blocks (231), an air inlet (232), a conveyor belt (233) and a shielding cover (234), the arc blocks (231) are symmetrically installed on the left side and the right side of the lower end of the air inlet (232), the air inlet (232) is embedded, clamped and installed on the inner side end face of the shielding mechanism (123), the conveyor belt (233) is embedded and arranged under the air inlet (232), and the shielding cover (234) is located right above the conveyor belt (233).

7. The bamboo charcoal fiber palm production equipment according to claim 6, wherein the arc block (231) comprises a fixing block (311), a triangular block (312), a leakage hole (313) and an oil-repellent layer (314), the triangular block (312) is uniformly embedded and installed on the left end face of the fixing block (311), the outer end face of the triangular block (312) is connected with the oil-repellent layer (314) in a fitting manner, the leakage hole (313) is embedded in the inner end face of the triangular block (312), and the oil-repellent layer (314) is wrapped on the outer side face of the lower end of the fixing block (311) in a fitting manner.

Technical Field

The invention belongs to the field of bamboo charcoal fiber, and particularly relates to bamboo charcoal fiber palm production equipment.

Background

The bamboo charcoal fiber production equipment is used for sequentially separating carbon residues on fired moso bamboos from bamboo fibers through a plurality of working procedures of firing, separation, precipitation and the like, and then fishing the bamboo charcoal fibers by utilizing filtering equipment and drying the bamboo charcoal fibers to process the bamboo charcoal fibers again.

Based on the findings of the inventor, the following defects mainly exist in the prior art, such as: when the separated fiber is dried by a dryer in the equipment, the moisture contained in the fiber is gradually evaporated along with the heating of the dryer, the viscosity between the fiber and the inner end face of the equipment is gradually reduced along with the evaporation of the moisture in the fiber, and the fiber which partially loses viscosity floats and adheres to the inner wall of the equipment along with the blowing of an air blower to form accumulation and adhesion.

Therefore, a bamboo charcoal fiber palm production device is needed.

Disclosure of Invention

In order to solve the above-mentioned technology, when the separated fiber is dried by a dryer in the device, the moisture contained in the fiber is gradually evaporated along with the heating of the dryer, and the viscosity between the fiber and the inner end surface of the device is gradually reduced along with the evaporation of the moisture in the fiber, so that the fiber which partially loses viscosity floats along with the blowing of the blower and adheres to the inner wall of the device to form the problem of accumulation and adhesion.

The invention relates to a purpose and an effect of bamboo charcoal fiber palm production equipment, which are achieved by the following specific technical means: the structure of the drying machine comprises a drying mechanism, a placing table and a machine body, wherein the drying mechanism is embedded and fixedly arranged right above the machine body, the placing table is embedded and arranged on the lower end face of the drying mechanism, and the machine body is arranged on the lower end face of the placing table; drying mechanism includes conducting wire, protection machanism, motor, air-blower, the left side terminal surface of connecting the air-blower is inlayed to the conducting wire, protection machanism inlays and locates the air-blower under, the motor inlays solid the installation directly over protection machanism, the right side of locating the motor is inlayed to the air-blower.

The protection mechanism comprises a shell, an air diffusion layer and a shielding mechanism, the shell is embedded and fixedly wrapped on the outer end face of the shielding mechanism, the air diffusion layer is embedded and arranged right above the shielding mechanism, and the shielding mechanism is embedded and clamped on the inner lower end face of the protection mechanism.

The air-diffusing layer comprises a linkage block, a rubber ring, a silk screen layer, a communicating pipe and a connecting pipe, wherein the linkage block is embedded in the lower end face of the inner side of the communicating pipe, the rubber ring is symmetrically installed right above the silk screen layer, the silk screen layer is embedded in the right above the connecting pipe, the communicating pipe is embedded and clamped in the right below the rubber ring, the connecting pipe is symmetrically installed on the left side and the right side of the lower end of the communicating pipe, and a circular ring made of rubber is arranged on the outer contour of the lower end of the connecting pipe.

Wherein, the linkage piece is including hiding piece, activity strip, mosaic plate, air outlet, piston mechanism, hide piece symmetry and install both ends about piston mechanism, activity strip rigid mount hides the outside terminal surface that covers the piece, and the block is inlayed to mosaic plate medial surface and is equipped with the air outlet, the air outlet symmetry is installed at both ends about piston mechanism, piston mechanism inlays the block and is being connected activity strip, it is equipped with two and outer lane diameter and is greater than the air outlet to hide the piece, and covers the piece upper end surface and be the slope form outline.

The piston mechanism comprises a piston tube, a connecting shaft and a piston sheet, the piston sheet is mounted on the inner side end face of the piston tube in an embedded and clamped mode, the connecting shaft is fixedly mounted on the outer side end face of the piston sheet in an embedded mode, the piston sheet is mounted on the inner side end face of the piston mechanism in an embedded mode, and the inner end face of the piston tube is filled with gas.

Wherein, shelter from the mechanism and include circular arc piece, air inlet, conveyer belt, cover the cover, the lower extreme left and right sides at the air inlet is installed to the circular arc piece symmetry, the block is inlayed at the air inlet and is installed at the medial surface that shelters from the mechanism, the conveyer belt is inlayed and is located the air inlet under, cover and be located the conveyer belt directly over, the lower extreme profile of circular arc piece becomes circular-arc design.

Wherein, the arc piece includes fixed block, triangular prism, leakage hole, oleophobic layer, the triangular prism is being installed evenly to fixed block left side terminal surface inlaying, triangular prism outside terminal surface laminating is being connected and is being dredged the oil reservoir, the inboard terminal surface of locating the triangular prism is inlayed to the leakage hole, it wraps up the lower extreme lateral surface at the fixed block to dredge the oil reservoir laminating, the outline flakiness of triangular prism just increases from supreme thickness down gradually.

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

1. the linkage block at the joint of the communicating pipe and the connecting pipe is provided with a covering sheet and a piston mechanism, when the linkage block is pushed by the air pressure of the communicating pipe, the covering sheet at one end can be stressed to move towards the middle, the connecting shaft and the piston sheet are driven by the movable strip to extrude the air in the piston pipe, the piston sheet at the other end can be stressed to drive the covering sheet at the other end to gather towards the middle, and the fibers in the motor can be uniformly dried by hot air.

2. Part of the fibers can be attached to the surface of the arc block along the flowing of the gas, the lower end surface of the arc block is arc-shaped, the outer contour of the arc block is provided with the triangular block and the oil-repellent layer, and the fibers can be attached to the surface of the fixed block difficultly through the sheet-shaped contour of the triangular block and the high-density surface coating material of the oil-repellent layer while being attached.

Drawings

FIG. 1 is a schematic view of the overall structure of a bamboo charcoal fiber palm production apparatus of the present invention.

Fig. 2 is a schematic structural diagram of a drying mechanism of bamboo charcoal fiber palm production equipment.

Fig. 3 is a schematic structural view of a protection mechanism of bamboo charcoal fiber palm production equipment.

FIG. 4 is a schematic structural view of an air-diffusing layer of the bamboo charcoal fiber palm production equipment of the present invention.

Fig. 5 is a schematic structural diagram of a linkage block of bamboo charcoal fiber palm production equipment.

FIG. 6 is a schematic structural view of a piston mechanism of the bamboo charcoal fiber palm production equipment of the present invention.

Fig. 7 is a schematic structural view of a shielding mechanism of the bamboo charcoal fiber palm production equipment.

FIG. 8 is a schematic structural view of an arc block of the bamboo charcoal fiber palm production equipment of the present invention.

In the figure: the device comprises a drying mechanism-1, a placing table-2, a machine body-3, a conducting wire-11, a protection mechanism-12, a motor-13, a blower-14, a shell-121, an air diffusion layer-122, a shielding mechanism-123, a linkage block-221, a rubber ring-222, a silk screen layer-223, a communication pipe-224, a connection pipe-225, a covering sheet-211, a movable strip-212, an inlaying plate-213, an air outlet-214, a piston mechanism-215, a piston pipe-151, a connecting shaft-152, a piston sheet-153, an arc block-231, an air inlet-232, a conveying belt-233, a covering cover-234, a fixed block-311, a triangular prism block-312, a leakage hole-313 and an oleophobic layer-314.

Detailed Description

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

example 1:

as shown in figures 1 to 5:

the invention provides bamboo charcoal fiber palm production equipment which structurally comprises a drying mechanism 1, a placing table 2 and a machine body 3, wherein the drying mechanism 1 is fixedly embedded above the machine body 3, the placing table 2 is embedded in the lower end face of the drying mechanism 1, and the machine body 3 is arranged on the lower end face of the placing table 2; drying mechanism 1 includes conducting wire 11, protection machanism 12, motor 13, air-blower 14, conducting wire 11 inlays the left side terminal surface of being connected air-blower 14, protection machanism 12 inlays and locates the air-blower 14 under, motor 13 inlays the solid mounting directly over protection machanism 12, the air-blower 14 inlays the right side of locating motor 13.

Wherein, protection machanism 12 includes casing 121, gas layer 122 that looses, shelters from mechanism 123, casing 121 inlays the parcel at the outside terminal surface that shelters from mechanism 123 admittedly, it inlays and locates directly over sheltering from mechanism 123 to loose gas layer 122, it inlays the block and installs terminal surface under protection machanism 12's inboard to shelter from mechanism 123.

The gas diffusion layer 122 comprises a linkage block 221, a rubber ring 222, a silk screen layer 223, a communication pipe 224 and a connecting pipe 225, wherein the linkage block 221 is embedded in the lower end face of the inner side of the communication pipe 224, the rubber ring 222 is symmetrically installed right above the silk screen layer 223, the silk screen layer 223 is embedded in the right above the connecting pipe 225, the communication pipe 224 is embedded and clamped in the right below the rubber ring 222, the connecting pipe 225 is symmetrically installed on the left side and the right side of the lower end of the communication pipe 224, a circular ring made of rubber is arranged on the outer contour of the lower end of the connecting pipe 225, and the air tightness of the connecting end face can be guaranteed through the circular ring and the rubber material.

Wherein, linkage block 221 is including hiding piece 211, activity strip 212, mosaic plate 213, air outlet 214, piston mechanism 215, hide piece 211 symmetry and install both ends about piston mechanism 215, activity strip 212 embedded solid is installed and is hidden the outside terminal surface of piece 211, and the block is inlayed to mosaic plate 213 medial surface and is equipped with air outlet 214, both ends about piston mechanism 215 are installed to air outlet 214 symmetry, piston mechanism 215 is inlayed the block and is being connected activity strip 212, it is equipped with two and outer lane diameter and is greater than air outlet 214 to hide piece 211, and hides piece 211 upper end surface and be the slope form outline, can effectively shelter from the terminal surface of air outlet 214.

The piston mechanism 215 comprises a piston tube 151, a connecting shaft 152 and a piston sheet 153, the piston sheet 153 is mounted on the inner side end face of the piston tube 151 in an embedded and clamped mode, the connecting shaft 152 is mounted on the outer side end face of the piston sheet 153 in an embedded mode, the piston sheet 153 is mounted on the inner side end face of the piston mechanism 215 in an embedded mode, the inner end face of the piston tube 151 is filled with the piston sheet, and when the piston sheet 153 at one end of the piston tube is pushed, the piston sheet 153 at the other end of the piston tube can be driven to move in an air extrusion mode.

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

in the using process of the bamboo charcoal drying machine, bamboo charcoal raw materials to be processed are placed in a machine body 3, the bamboo charcoal is fired, precipitated and separated through equipment in the machine body 3 and then is transmitted into a drying mechanism 1, a motor 13 in the drying mechanism 1 is utilized to drive a blower 14 to blow hot air in a protection mechanism 12 for fiber drying, a gas diffusion layer 122 is arranged in the protection mechanism 12, the blower 14 blows the hot air downwards, the hot air is uniformly transmitted into a communicating pipe 224 through a silk screen layer 223 and is finally discharged outwards along a connecting pipe 225, a linkage block 221 at the connecting part of the communicating pipe 224 and the connecting pipe 225 is provided with a shielding piece 211 and a piston mechanism 215, when the linkage block is pushed by the air pressure of the communicating pipe 224, the shielding piece 211 at one end is forced to move towards the middle, and the connecting shaft 152 and the piston piece 153 are driven by a movable strip 212 to extrude the air in a piston pipe 151, the piston sheet 153 at the other end is forced to drive the masking sheet 211 at the other end to gather towards the middle, so that the fibers in the motor 13 can be uniformly dried by hot air.

Example 2:

as shown in fig. 7 to 8: the shielding mechanism 123 comprises an arc block 231, an air inlet 232, a conveyor belt 233 and a shielding cover 234, wherein the arc block 231 is symmetrically arranged at the left side and the right side of the lower end of the air inlet 232, the air inlet 232 is embedded and clamped at the end face of the inner side of the shielding mechanism 123, the conveyor belt 233 is embedded and arranged under the air inlet 232, the shielding cover 234 is arranged over the conveyor belt 233, the lower end of the arc block 231 is designed to be arc-shaped, and the situation that fibers are attached to the outer surface of the lower end of the arc block 231 in the blowing floating process can be effectively avoided.

Wherein, arc piece 231 includes fixed block 311, triangular prism 312, leakage hole 313, oleophobic layer 314, fixed block 311 left side terminal surface is evenly inlayed and is being installed triangular prism 312, triangular prism 312 outside terminal surface laminating is being connected and is being dredged oil layer 314, leakage hole 313 is inlayed and is located the medial surface of triangular prism 312, it wraps up the lower extreme lateral surface at fixed block 311 to dredge oil layer 314 laminating, triangular prism 312's outline flakiness and follow supreme thickness from down and increase gradually.

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

according to the invention, when hot air is blown to the fibers on the surface of the conveyor belt 233 along the air inlet 232, the air flow speed on the surface of the fibers is increased, water vapor contained in the fibers is gradually evaporated under the rapid flow of the air and the high temperature, and after moisture is evaporated, the fibers lose weight and adhesiveness and float in the air along with the blowing of the hot air, part of the fibers are attached to the surface of the arc block 231 along the flow of the air, the lower end surface of the arc block 231 is in an arc shape, and the triangular block 312 and the oleophobic layer 314 are arranged on the outer profile, so that the fibers are difficult to attach to the surface of the fixed block 311 through the sheet-shaped profile of the triangular block 312 and the high-density surface coating material of the oleophobic layer 314 while the fibers are attached.

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.