CN112985036B

CN112985036B - Chemical mesh belt dryer

Info

Publication number: CN112985036B
Application number: CN202110168088.8A
Authority: CN
Inventors: 权明
Original assignee: Jiangxi Shengmei Synthetic Material Co ltd
Current assignee: Jiangxi Shengmei Synthetic Material Co ltd
Priority date: 2021-02-07
Filing date: 2021-02-07
Publication date: 2022-07-05
Anticipated expiration: 2041-02-07
Also published as: CN112985036A

Abstract

The invention relates to a chemical mesh belt dryer which comprises a bottom plate, a conveying device, a drying frame, a vibrating device and an overturning air blowing device, wherein the conveying device is installed on the bottom plate, the drying frame is installed on the bottom plate, the conveying device is located inside the drying frame, the vibrating device is installed in the middle of the drying frame, and the overturning air blowing device is installed at the upper end of the drying frame. The invention can solve the problems that in the conveying process, the materials are usually in a standing state, so that different areas on the surfaces of the materials are different in drying degree, the bottom ends of the materials are often difficult to dry, the bottom end surfaces of the materials are in contact with a conveyor belt part and are more difficult to dry, and in order to solve the problem, people usually reduce the conveying speed so as to prolong the drying time, but the long-time drying can cause the condition that the surfaces of the upper half parts of the materials are excessively dried, so that the materials are damaged, and the like.

Description

Chemical mesh belt dryer

Technical Field

The invention relates to the field of chemical mesh belts, in particular to a chemical mesh belt dryer.

Background

Chemical industry guipure has simple structure, it is convenient to maintain, it is with low costs, advantages such as commonality are strong, widely used in departments such as metallurgy, mine, coal, traffic, water and electricity, chemical industry guipure has overcome the belt feeder belt simultaneously and has torn, puncture, the shortcoming of corruption, a safety that provides for the customer, swiftly, maintain simple transport mode, the chemical industry guipure can be to the graininess material in the transport carry on drying transport, carry the material to carry out heat preservation formula stoving processing in comparatively sealed stoving environment in the transport, but this kind of drying mode has some problems:

in transportation process, the material is the state of stewing usually, and the degree that leads to the different regions on material surface to receive the stoving is different, and the bottom of material often is difficult to be dried to, and bottom face and conveyer belt part contact, is difficult more to be toasted to, in order to solve this problem, people put down conveying speed usually to extension drying time, but long-time drying probably causes the excessive condition of surface stoving of the first half of material, leads to the material to take place to damage.

Disclosure of Invention

Technical scheme (I)

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a chemical mesh belt dryer, includes bottom plate, conveyor, dry frame, vibrating device and upset air-blowing device, installs conveyor on the bottom plate, installs dry frame on the bottom plate, and conveyor is located inside the dry frame, and the mid-mounting of dry frame has vibrating device, and upset air-blowing device is installed to the upper end of dry frame.

The overturning air blowing device comprises a dust-proof frame, a reciprocating cylinder, a translation plate, a first extrusion block, a turning mechanism, a second extrusion block, an air outlet frame, an air cavity, a connecting pipe, a hot air pump, an extrusion frame, an air hole and two shunting mechanisms, wherein the dust-proof frame is arranged on a drying frame, the reciprocating cylinder is arranged on the dust-proof frame, the ejection end of the reciprocating cylinder is connected with the translation plate, the translation plate is connected with the dust-proof frame in a sliding fit manner, the first extrusion block is symmetrically arranged at the left end and the right end of the translation plate, the turning mechanism is symmetrically arranged at the left side and the right side of the upper end of the drying frame, the first extrusion block corresponds to the turning mechanism up and down in position, the second extrusion block is arranged at the middle part of the translation plate, the air outlet frame is arranged on the drying frame, the air cavity is arranged at the upper end of the air outlet frame, the air hole is uniformly arranged at the lower end of the air outlet frame, the air cavity is communicated with the air hole, and the two shunting mechanisms are arranged at the left end and the right end of the air outlet frame, the outside of frame that goes out the gas is connected with the extrusion frame through sliding fit's mode, the second extrusion piece is arranged for corresponding from top to bottom with the extrusion frame, be connected with the connecting pipe between air cavity and the heat pump, the heat pump is installed on dry frame, during specific work, blow in the air cavity back respectively from the gas pocket through the heat pump, reposition of redundant personnel mechanism blows off, thereby carry out hot air drying to the material of process, the cooperation heating tube carries out drying process, drive translation board reciprocating motion about through reciprocating cylinder, first extrusion piece, second extrusion piece synchronous motion, first extrusion piece moves the extrusion mechanism of stirring right, thereby material to on the netted conveyer belt blocks the formula and stirs, the second extrusion piece extrusion frame that moves right descends, thereby extrude two reposition of redundant personnel mechanism antiport, thereby further hot-blow drying process to the material of mechanism work area.

The turning mechanism comprises a rotating column, a gear, a vertical rod, a rack, a reset spring, a blocking frame and a blocking plate, wherein the rotating column is connected with a drying frame through a bearing, the rotating column is provided with the gear, the gear is meshed with the rack, the rack is arranged on the vertical rod, the vertical rod is connected with the drying frame in a sliding fit manner, the reset spring is connected between the vertical rod and the drying frame, the reset spring plays a role in resetting, the blocking frame is arranged at the left end of the rotating column, the blocking plate is arranged at the lower end of the vertical rod, during specific work, a first extrusion block which moves right extrudes the vertical rod to descend, the rotating column and the blocking frame are driven to rotate anticlockwise under the cooperation of the gear and the rack until the blocking frame abuts against the upper surface of the mesh-shaped conveying belt, at the moment, the lower end face of the blocking plate is also attached to the upper surface of the mesh-shaped conveying belt, and the mesh-shaped conveying belt can continue to move along with the mesh-shaped conveying belt through the interval blocking between the blocking frame and the blocking plate, the purpose of turning over is achieved when the body position is rotated.

The shunting mechanism comprises an ejection pipe, a linkage rod, a flexible pipe, a jacking frame and a built-in spring, the ejection pipe is connected with the air outlet frame through a pin shaft, the linkage rod is connected between the ejection pipes through the pin shaft, the flexible pipe is connected between the ejection pipe and the air cavity, an inner groove is formed in the air outlet frame and is connected with the jacking frame in a sliding fit mode, the built-in spring is connected between the inner groove and the jacking frame, the built-in spring plays a role in resetting, when the mechanism works specifically, a second extrusion block moving to the right extrudes the extrusion frame to descend, the jacking frame extrudes the upper end of the ejection pipe after being extruded by the extrusion frame (the extrusion part is located on the upper side of the pin shaft), and the lower end of the ejection pipe moves outwards, so that the work area of the overturning mechanism is pointed, and partial hot air is used for further drying materials in overturning.

The conveying device comprises two bases, two electric conveying rollers and a mesh conveying belt, the two bases are installed at the left end and the right end of the bottom plate, the electric conveying rollers are installed on the bases, and the mesh conveying belt is connected between the two electric conveying rollers.

Two shielding curtains are installed on the front side and the rear side of the upper end of the drying frame, and a heating pipe is installed on the inner wall of the upper end of the drying frame.

Wherein, vibrating device include link, motor, cam, clap piece, gravity board and vibration post, the link is installed at the middle part of dry frame, installs the motor on the link, installs the cam on the output shaft of motor, the cam with clap the piece and laminate mutually, pat the piece and install the lower extreme at the gravity board, the vibration post is evenly installed to the upper end of gravity board.

The vibrating column comprises a connecting column, a vibrating head and a buffer spring, the connecting column is installed on the gravity plate, the upper end of the connecting column is connected with the vibrating head in a sliding fit mode, and the buffer spring is connected between the connecting column and the vibrating head.

The inclined plane of the first extrusion block is of a structure gradually inclining upwards from left to right, and the inclined plane of the second extrusion block is of a structure gradually inclining upwards from left to right.

The upper end of the vertical rod is connected with a drag reduction roller through a pin shaft, the left end of the blocking frame is uniformly provided with emptying grooves, the lower end of the blocking plate is uniformly provided with output grooves, and the emptying grooves and the output grooves are arranged in a left-right staggered mode.

The extrusion frame comprises a U-shaped frame, a compression column and a reset telescopic rod, the U-shaped frame is connected with the air outlet frame in a sliding fit mode, the reset telescopic rod is connected between the U-shaped frame and the air outlet frame, and the compression column is installed at the upper end of the U-shaped frame.

Wherein, the inboard of top movable frame lower extreme seted up the spheroid groove, placed the ball on the spheroid groove, the ejection pipe laminating that the ball and the outside were arranged, the inclined plane of top movable frame is from last down for leaning out the structure gradually.

(II) advantageous effects

1. According to the chemical mesh belt dryer, the material is turned by adopting a structural linkage design concept, the material is further turned for many times by matching with slight vibration of the mesh conveyor belt, and the turned material is subjected to intensified hot air drying, so that the drying degree of each area of the material is kept the same as much as possible, the drying treatment is not required to be carried out by slowing down the conveying speed, and the drying efficiency is improved;

2. according to the chemical mesh belt dryer, the vertical rod is driven to descend by the turning mechanism through the extrusion of the first extrusion block, the blocking frame and the blocking plate are driven to be in contact with the mesh conveying belt through the matching of the gear and the rack, so that the passing materials are turned in a blocking manner, the materials on the mesh conveying belt can pass through the blocking frame and the blocking plate after rotating the body position, and then continue to move along with the mesh conveying belt, and the purpose of turning is achieved when the body position is rotated;

3. according to the chemical mesh belt dryer, materials passing through the chemical mesh belt dryer are dried through hot air continuously, when the turning mechanism turns the materials, the extrusion frame descends after being extruded, so that the two shunting mechanisms are extruded to be separated towards two sides in a rotating mode, the shunting mechanisms after rotating at the angles point to the working area of the turning mechanism, the hot air blown out by the shunting mechanisms further dries the materials in turning, and the drying uniformity of the materials is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is an overall cross-sectional view of the present invention;

FIG. 2 is a schematic structural view of the flipping mechanism of the present invention (except for the return spring);

FIG. 3 is a cross-sectional view of the drying frame, the air outlet frame, the air cavity, the connecting pipe, the heat pump, the extrusion frame, the air hole and the flow dividing mechanism of the present invention;

FIG. 4 is an enlarged view of a portion of the invention at X of FIG. 1;

FIG. 5 is an enlarged view of a portion of the invention at Y of FIG. 1;

fig. 6 is an enlarged view of the invention at Z of fig. 3.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings. In this process, the widths of lines or the sizes of components in the drawings may be exaggerated for clarity and convenience of description.

The following terms are defined based on the functions of the present invention, and may be different depending on the intention of the user or the operator or the convention. Therefore, these terms are defined based on the entire contents of the present specification.

As shown in fig. 1 to 6, a chemical mesh belt dryer comprises a bottom plate 1, a conveying device 2, a drying frame 3, a vibrating device 4 and a turning air blowing device 5, wherein the conveying device 2 is installed on the bottom plate 1, the drying frame 3 is installed on the bottom plate 1, the conveying device 2 is located inside the drying frame 3, the vibrating device 4 is installed in the middle of the drying frame 3, and the turning air blowing device 5 is installed at the upper end of the drying frame 3.

Conveyor 2 include two bases 21, two electronic conveying rollers 22 and netted conveyer belt 23, two bases 21 are installed at both ends about bottom plate 1, install electronic conveying roller 22 on the base 21, be connected with netted conveyer belt 23 between two electronic conveying rollers 22, drive netted conveyer belt 23 anticlockwise rotation through two electronic conveying rollers 22 to carry the material left.

Two shielding curtains are installed on the front side and the rear side of the upper end of the drying frame 3, the sealing effect is improved, drying is facilitated, and the heating pipe is installed on the inner wall of the upper end of the drying frame 3, so that the irradiation drying effect is achieved.

Vibrating device 4 include link 41, motor 42, cam 43, pat piece 44, gravity board 45 and vibration post 46, link 41 installs the middle part at dry frame 3, install motor 42 on link 41, install cam 43 on motor 42's the output shaft, cam 43 and the laminating of patting piece 44 mutually, pat the lower extreme at gravity board 45 of piece 44, vibration post 46 is evenly installed to the upper end of gravity board 45, concrete during operation, drive cam 43 through motor 42 and rotate, thereby drive gravity board 45 vibration from top to bottom, carry out slight vibration to the material on netted conveyer belt 23 through vibration post 46, do benefit to and turn.

Vibration post 46 include spliced pole 461, vibrating head 462 and buffer spring 463, spliced pole 461 installs on gravity plate 45, the upper end and the vibrating head 462 of spliced pole 461 are sliding fit and are connected, and be connected with buffer spring 463 between spliced pole 461, the vibrating head 462, buffer spring 463 plays the effect of buffering protection, has reduced the damage that vibrating head 462 upwards impact vibration brought.

The overturning air blowing device 5 comprises a dust-proof frame 51, a reciprocating cylinder 52, a translation plate 53, a first extrusion block 63, a turning mechanism 54, a second extrusion block 55, an air outlet frame 56, an air cavity 57, a connecting pipe 58, a hot air pump 59, an extrusion frame 60, an air hole 61 and two shunting mechanisms 62, wherein the dust-proof frame 51 is arranged on the drying frame 3, the reciprocating cylinder 52 is arranged on the dust-proof frame 51, the ejection end of the reciprocating cylinder 52 is connected with the translation plate 53, the translation plate 53 is connected with the dust-proof frame 51 in a sliding fit manner, the left end and the right end of the translation plate 53 are symmetrically provided with the first extrusion blocks 63, the turning mechanisms 54 are symmetrically arranged on the left side and the right side of the upper end of the drying frame 3, the first extrusion blocks 63 correspond to the turning mechanism 54 up and down, the middle part of the translation plate 53 is provided with the second extrusion block 55, the air outlet frame 56 is arranged on the drying frame 3, the upper end of the air outlet frame 56 is provided with the air cavity 57, the lower end of the air outlet frame 56 is uniformly provided with the air hole 61, the air cavity 57 is communicated with the air hole 61, two shunting mechanisms 62 are installed at the left end and the right end of the air outlet frame 56, the outside of the air outlet frame 56 is connected with the extrusion frame 60 in a sliding fit mode, the second extrusion block 55 and the extrusion frame 60 are arranged in an up-and-down corresponding mode, a connecting pipe 58 is connected between the air cavity 57 and the hot air pump 59, the hot air pump 59 is installed on the drying frame 3, when the drying machine works specifically, hot air is blown into the air cavity 57 through the hot air pump 59 and then is respectively blown out from the air hole 61 and the shunting mechanism 62, so that the passing materials are dried through hot air, the drying treatment is carried out by matching with a heating pipe, the translation plate 53 is driven by the reciprocating cylinder 52 to reciprocate left and right, the first extrusion block 63 and the second extrusion block 55 move synchronously, the first extrusion block 63 moves to the right to extrude the turning mechanism 54, so that the materials on the reticular conveyer belt 23 are turned over in a blocking mode, the second extrusion frame 60 moving to the right descends, thereby pressing the two diversion mechanisms 62 to rotate reversely, and further performing hot blow drying treatment on the material in the working area of the turning mechanism 54.

The turning mechanism 54 comprises a rotating column 541, a gear 542, a vertical rod 543, a rack 544, a return spring 545, a blocking frame 546 and a blocking plate 547, the rotating column 541 is connected with the drying frame 3 by a bearing, the gear 542 is installed on the rotating column 541, the rack 544 is meshed on the gear 542, the rack 544 is installed on the vertical rod 543, the vertical rod 543 is connected with the drying frame 3 in a sliding fit manner, the return spring 545 is connected between the vertical rod 543 and the drying frame 3 and plays a role in returning, the blocking frame 546 is installed at the left end of the rotating column 541, the blocking plate 543 is installed at the lower end of the vertical rod 543, the upper end of the vertical rod 543 is connected with a drag reduction roller through a pin shaft, the emptying slots are uniformly formed at the left end of the blocking frame 546, the output slots are uniformly formed at the lower end of the blocking plate 547, the emptying slots and the output slots are arranged in a left-right staggered manner, so that the material can continuously move along with the mesh-shaped conveying belt 23 when the body position is turned, during specific work, the first extrusion block 63 moving to the right extrudes the vertical rod 543 to descend, the rotation column 541 and the blocking frame 546 are driven to rotate anticlockwise under the cooperation of the gear 542 and the rack 544 until the blocking frame 546 abuts against the upper surface of the reticular conveying belt 23, at the moment, the lower end face of the blocking plate 547 is also attached to the upper surface of the reticular conveying belt 23, the reticular conveying belt 23 can continue to move along with the reticular conveying belt 23 after the body position of the reticular conveying belt 23 needs to be rotated through the interval type blocking of the blocking frame 546 and the blocking plate 547, and the turning purpose is achieved when the body position is rotated.

Extrusion frame 60 include U type frame 601, receive the post 602, the telescopic link 603 that resets, U type frame 601 is connected for sliding fit with frame 56 of giving vent to anger, be connected with the telescopic link 603 that resets between U type frame 601 and the frame 56 of giving vent to anger, the telescopic link 603 that resets plays the effect that resets, the upper end of U type frame 601 is installed and is received the post 602, the extrusion of the second extrusion piece 55 that moves to the right is received the post 602 and is descended, U type frame 601 synchronous decline to the extrusion top moves frame 624 is inboard to be removed.

The flow dividing mechanism 62 comprises an ejection pipe 621, a linkage rod 622, a flexible pipe 623, a jacking frame 624 and a built-in spring 625, the ejection pipe 621 is connected with the air outlet frame 56 through a pin shaft, the linkage rod 622 is connected between the ejection pipe 621 through a pin shaft, the flexible pipe 623 is connected between the ejection pipe 621 and the air cavity 57, the air outlet frame 56 is provided with an inner groove, the inner groove is connected with the jacking frame 624 in a sliding fit manner, the built-in spring 625 is connected between the inner groove and the jacking frame 624, the built-in spring 625 plays a reset role, the inner side of the lower end of the jacking frame 624 is provided with a ball groove, balls are placed on the ball groove and are attached to the ejection pipe 621 arranged on the outermost side, the friction resistance generated by extruding the ejection pipe 621 from the outer wall of the ejection pipe 621 is reduced, the inclined surface of the jacking frame 624 is of a structure which is gradually inclined outwards, the extrusion difficulty is reduced, and during specific work, the second extrusion block 55 which moves right extrudes the extrusion frame 60 to descend, the pushing frame 624 is pushed by the pushing frame 60 to push the upper end of the spraying pipe 621 (the pushing part is located at the upper side of the pin shaft position in the spraying pipe 621), and the lower end of the spraying pipe 621 moves outwards to point to the working area of the turning mechanism 54, so that part of hot air further dries the material in turning by hot air.

The inclined plane of first extrusion piece 63 turn right from a left side for the structure of gradually upwards inclining, the inclined plane of second extrusion piece 55 turns right from a left side for the structure of gradually upwards inclining, the structural design on inclined plane has reduced the extruded degree of difficulty.

When in work:

carry the material left through conveyor 2, the material is dried when entering into drying frame 3, drive translation board 53 left and right reciprocating motion through reciprocating cylinder 52, first extrusion piece 63, second extrusion piece 55 synchronous motion, first extrusion piece 63 moves extrusion turning mechanism 54 to the right, thereby the material to netted conveyer belt 23 blocks the formula and turns, second extrusion piece 55 extrusion frame 60 that moves to the right descends, thereby extrude two reposition of redundant personnel mechanism 62 antiport, and then further the hot blow drying process is further blown to the material that is turning in turning mechanism 54 working area.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a chemical mesh belt dryer, includes bottom plate (1), conveyor (2), dry frame (3), vibrating device (4) and upset air-blast device (5), its characterized in that: the drying device is characterized in that a conveying device (2) is installed on the bottom plate (1), a drying frame (3) is installed on the bottom plate (1), the conveying device (2) is located inside the drying frame (3), a vibrating device (4) is installed in the middle of the drying frame (3), and a turning air blowing device (5) is installed at the upper end of the drying frame (3);

the overturning air blowing device (5) comprises a dustproof frame (51), a reciprocating cylinder (52), a translation plate (53), a first extrusion block (63), a overturning mechanism (54), a second extrusion block (55), an air outlet frame (56), an air cavity (57), a connecting pipe (58), a hot air pump (59), an extrusion frame (60), an air hole (61) and two shunting mechanisms (62), wherein the dustproof frame (51) is installed on the drying frame (3), the reciprocating cylinder (52) is installed on the dustproof frame (51), the ejection end of the reciprocating cylinder (52) is connected with the translation plate (53), the translation plate (53) is connected with the dustproof frame (51) in a sliding fit manner, the left end and the right end of the translation plate (53) are symmetrically provided with the first extrusion block (63), the left side and the right side of the upper end of the drying frame (3) are symmetrically provided with the overturning mechanism (54), the first extrusion block (63) corresponds to the overturning mechanism (54) up and down, the middle of the translation plate (53) is provided with a second extrusion block (55), the drying frame (3) is provided with an air outlet frame (56), the upper end of the air outlet frame (56) is provided with an air cavity (57), the lower end of the air outlet frame (56) is uniformly provided with air holes (61), the air cavity (57) is communicated with the air holes (61), the left end and the right end of the air outlet frame (56) are provided with two shunting mechanisms (62), the outside of the air outlet frame (56) is connected with the extrusion frame (60) in a sliding fit manner, the second extrusion block (55) and the extrusion frame (60) are arranged in an up-and-down corresponding manner, a connecting pipe (58) is connected between the air cavity (57) and a hot air pump (59), and the hot air pump (59) is arranged on the drying frame (3);

the turning mechanism (54) comprises a rotating column (541), a gear (542), a vertical rod (543), a rack (544), a return spring (545), a blocking frame (546) and a blocking plate (547), wherein the rotating column (541) is connected with the drying frame (3) through a bearing, the gear (542) is installed on the rotating column (541), the rack (544) is meshed with the gear (542), the rack (544) is installed on the vertical rod (543), the vertical rod (543) is connected with the drying frame (3) in a sliding fit manner, the return spring (545) is connected between the vertical rod (543) and the drying frame (3), the blocking frame (546) is installed at the left end of the rotating column (541), and the blocking plate (547) is installed at the lower end of the vertical rod (543);

the flow dividing mechanism (62) comprises an ejection pipe (621), a linkage rod (622), a flexible pipe (623), a jacking frame (624) and a built-in spring (625), the ejection pipe (621) is connected with the air outlet frame (56) through a pin shaft, the linkage rod (622) is connected between the ejection pipes (621) through the pin shaft, the flexible pipe (623) is connected between the ejection pipe (621) and the air cavity (57), an inner groove is formed in the air outlet frame (56), the inner groove is connected with the jacking frame (624) in a sliding fit manner, and the built-in spring (625) is connected between the inner groove and the jacking frame (624);

the vibrating device (4) comprises a connecting frame (41), a motor (42), a cam (43), a beating block (44), a gravity plate (45) and a vibrating column (46), wherein the connecting frame (41) is installed in the middle of the drying frame (3), the motor (42) is installed on the connecting frame (41), the cam (43) is installed on an output shaft of the motor (42), the cam (43) is attached to the beating block (44), the beating block (44) is installed at the lower end of the gravity plate (45), and the vibrating column (46) is evenly installed at the upper end of the gravity plate (45);

vibration post (46) include spliced pole (461), vibration head (462) and buffer spring (463), spliced pole (461) is installed on gravity board (45), the upper end and the vibration head (462) of spliced pole (461) are sliding fit and are connected, and are connected with buffer spring (463) between spliced pole (461), vibration head (462).

2. The chemical mesh belt dryer as claimed in claim 1, wherein: conveyor (2) include two bases (21), two electronic conveying roller (22) and netted conveyer belt (23), two bases (21) are installed to the both ends about bottom plate (1), install electronic conveying roller (22) on base (21), be connected with netted conveyer belt (23) between two electronic conveying roller (22).

3. The chemical mesh belt dryer as claimed in claim 1, wherein: two shielding curtains are installed on the front side and the rear side of the upper end of the drying frame (3), and a heating pipe is installed on the inner wall of the upper end of the drying frame (3).

4. The chemical mesh belt dryer as claimed in claim 1, wherein: the inclined plane of the first extrusion block (63) is of a structure which gradually inclines upwards from left to right, and the inclined plane of the second extrusion block (55) is of a structure which gradually inclines upwards from left to right.

5. The chemical mesh belt dryer as claimed in claim 1, wherein: the upper end of the vertical rod (543) is connected with a drag reduction roller through a pin shaft, the left end of the blocking frame (546) is uniformly provided with emptying grooves, the lower end of the blocking plate (547) is uniformly provided with output grooves, and the emptying grooves and the output grooves are arranged in a left-right staggered mode.

6. The chemical mesh belt dryer according to claim 1, characterized in that: extrusion frame (60) include U type frame (601), receive pressure post (602), telescopic link (603) reset, U type frame (601) are connected for sliding fit with gas frame (56), be connected with telescopic link (603) reset between U type frame (601) and gas frame (56), the upper end of U type frame (601) is installed and is received pressure post (602).

7. The chemical mesh belt dryer as claimed in claim 1, wherein: the inboard of top movable frame (624) lower extreme seted up the spheroid groove, placed the ball on the spheroid groove, the blowout pipe (621) laminating that the ball and the outside were arranged, the inclined plane of top movable frame (624) is from last down for gradually leaning out the structure.