CN109969685B

CN109969685B - Conveying device for fiber drying equipment

Info

Publication number: CN109969685B
Application number: CN201910144913.3A
Authority: CN
Inventors: 王婷; 朱菲; 刘先龙; 程茂根; 孙征
Original assignee: Yuexi Shixing Machinery Equipment Co ltd
Current assignee: Yuexi Shixing Machinery Equipment Co ltd
Priority date: 2019-02-27
Filing date: 2019-02-27
Publication date: 2023-10-27
Anticipated expiration: 2039-02-27
Also published as: CN109969685A

Abstract

The invention relates to a conveying device for fiber drying equipment, which comprises a frame, wherein a drying box, an annular conveying belt, a bearing part, an A clamping part, a B clamping part, a resetting part, an A mounting rod and a B mounting rod are arranged on the frame, a driving part is arranged on a conveying path of the annular conveying belt, an A driving surface and a B driving surface are arranged on the driving part, when the annular conveying belt conveys the A mounting rod and the B mounting rod to pass through the driving part, the A driving surface and the A mounting rod form inclined surface driving fit to regulate the rotation of the A mounting rod so that the A clamping part rotates away from the bearing part, and the B driving surface and the B mounting rod form inclined surface driving fit to regulate the rotation of the B mounting rod so that the B clamping part rotates away from the bearing part.

Description

Conveying device for fiber drying equipment

Technical Field

The invention relates to the field of fiber processing, in particular to a conveying device for fiber drying equipment.

Background

In animals and plants, fibers play an important role in maintaining tissue. The fiber has wide application, can be woven into thin wires, thread ends and hemp ropes, and can be woven into a fiber layer when making paper or weaving felt; and is also commonly used for manufacturing other materials and forming composite materials together with other materials.

When manufacturing and processing the fiber, the fiber needs to be dried, the traditional static heating and drying efficiency is too low, the conventional drying method is not adopted, the fiber is dried by adopting a hot air drying method, in order to meet the current continuous production line type processing, the fiber is generally dried by adopting a conveying belt to convey a fiber drying box, but the conventional conveying device is simple in structure, the fiber is fixedly clamped when being dried, but the fiber at the clamping position of the conveying device cannot be dried by the drying box, the drying effect is reduced, the current use requirement cannot be met, and the problems are urgently solved.

Disclosure of Invention

The invention aims to provide a conveying device for fiber drying equipment, which is used for conveying fibers.

The technical scheme adopted by the invention is as follows.

A conveying device for fiber drying equipment comprises a frame, a drying box, an annular conveying belt, a bearing piece, an A clamping piece, a B clamping piece, a reset piece, an A installation rod and a B installation rod are arranged on the frame, the annular conveying belt penetrates through the drying box, the bearing piece is used for bearing fibers, the middle of the fibers is erected on the bearing piece, two ends of the fibers are downwards arranged in a hanging mode, the A installation rod and the B installation rod are installed on the annular conveying belt through a hinge shaft, one end of the A installation rod is fixedly connected with the A clamping piece, one end of the B installation rod is fixedly connected with the B clamping piece, the reset piece enables the A installation rod and the B installation rod to have a trend of propping against the bearing piece, the A clamping piece and the B clamping piece are tightly attached to the bearing piece to compress the fibers, a driving piece is arranged on a conveying path of the annular conveying belt, an A driving surface and a B driving surface are arranged on the driving piece, when the annular conveying belt passes through the driving piece, the A driving surface and the A installation rod form an inclined plane driving fit with the A installation rod to be used for adjusting the rotation of the A clamping piece to be far away from the bearing piece, and the B driving surface is matched with the B installation rod to form an inclined plane driving fit to be used for adjusting the B driving piece to rotate to be far away from the bearing piece.

Preferably: the driving piece is arranged along the length direction of the drying box, and the driving surface A and the driving surface B are sequentially arranged along the width direction of the annular conveying belt.

Preferably: the driving surface A consists of a plurality of sub-driving surfaces A which are arranged at intervals in sequence, and the driving surface B consists of a plurality of sub-driving surfaces B which are arranged at intervals in sequence.

Preferably: the sub A driving surfaces and the sub B driving surfaces are staggered along the conveying direction of the annular conveying belt.

Preferably: the length of the driving surface of the sub A is consistent with that of the driving surface of the sub B.

Preferably: the structures of the A driving surface and the B driving surface are the same, and the distance between the adjacent sub A driving surfaces is consistent with the length of the sub B driving surface.

Preferably: the sub A driving surface is composed of an inclined surface section and a plane section, the inclined surface section and the plane section are sequentially arranged along the length direction of the driving piece, and in the process that the A mounting rod passes through the sub A driving surface, the A mounting rod is in the following two states, namely: the inclined surface section is abutted against the A mounting rod, the A clamping piece is in a state gradually far away from the bearing piece, and two of the A clamping pieces are: the planar segment abuts the a mounting bar and the a clamp is held away from the carrier.

Preferably: one end of the inclined surface section is higher than one end of the A installation rod, which is abutted against the A driving surface, and the other end of the inclined surface section is lower than one end of the A installation rod, which is abutted against the A driving surface, and the inclined surface section is obliquely arranged downwards along the conveying direction of the annular conveying belt.

Preferably: the inclined surface section and the plane section are connected through a transition surface section, and the transition surface section is an arc-shaped curved surface.

Preferably: the A mounting rod and the B mounting rod are arranged in an X shape.

Preferably: the B installation pole is the straight-bar, and the straight-bar slope arranges, and straight-bar inclination is unanimous with the inclined plane section, and A installation pole comprises first straight-bar section and second straight-bar section, and first straight-bar section one end rigid coupling A clamping piece, first straight-bar section middle part are through articulated shaft installation on annular conveyor belt, and first straight-bar section is X form with B installation pole and arranges, and the other end rigid coupling second straight-bar section of first straight-bar section, second straight-bar section slope setting, second straight-bar section inclination is unanimous with the inclined plane section.

Preferably: the roller is arranged at one end of the A installation rod, which is abutted against the A driving surface, and the roller is arranged at one end of the B installation rod, which is abutted against the B driving surface.

Preferably: the driving piece is installed in the frame through the lifting assembly, and the lifting assembly is used for adjusting the height of the driving piece, and the distance that the clamping piece A and the clamping piece B are far away from the bearing piece is adjusted.

The invention has the technical effects that: according to the invention, through the arrangement that the annular conveying belt passes through the drying box, the passing fibers are dried, the arrangement of the bearing piece is used for bearing the fibers, the arrangement of the clamping pieces A and B is used for realizing the clamping function on the bearing piece, the resetting piece provides a trend that the installation rods A and B are propped against the bearing piece, the clamping pieces A and B are tightly attached to the bearing piece to compress the fibers, and through the arrangement of the driving piece, when the annular conveying belt conveys the installation rods A and B to pass through the driving piece, the driving surface A and the installation rods A form an inclined plane driving fit for adjusting the rotation of the installation rods A so that the clamping pieces A rotate away from the bearing piece, and the driving surface B and the installation rods B form an inclined plane driving fit for adjusting the rotation of the installation rods B so that the clamping pieces B rotate away from the bearing piece. The driving piece is arranged along the length direction of the drying box, so that when the A installation rod and the B installation rod pass through the drying box, the A installation rod and the B installation rod can be driven by the driving piece in a whole road section, the drying effect is guaranteed, the A driving surface and the B driving surface are sequentially arranged along the bandwidth direction of the annular conveying belt, the A driving surface and the B driving surface are independently arranged, correspond to the A installation rod and the B installation rod, and are not mutually interfered when the A installation rod and the B installation rod are driven.

The driving surface A consists of a plurality of sub-driving surfaces A which are arranged at intervals in sequence, and the driving surface B consists of a plurality of sub-driving surfaces B which are arranged at intervals in sequence. The driving surfaces A and B are staggered along the conveying direction of the annular conveying belt, so that the mounting rods A and B are driven in a staggered manner, the clamping pieces A and B are staggered and far away from the bearing piece, and the situation that fibers fall off due to the fact that the clamping pieces A and B are far away from the bearing piece at the same time is avoided. The length of the sub A driving surface is consistent with that of the sub B driving surface, so that the time for driving the A mounting rod and the B mounting rod is the same, and the time for keeping away from the bearing piece by the A clamping piece and the B clamping piece is the same. The structure of the A driving surface is the same as that of the B driving surface, the distance between every two adjacent sub A driving surfaces is the same as that of the sub B driving surface, the time for driving the A mounting rod and the B mounting rod in a staggered mode is the same, and when the A clamping piece is far away from the bearing piece, the B clamping piece resets to compress fibers, and the fibers are prevented from falling off. The sub A driving surface is composed of an inclined surface section and a plane section, the inclined surface section and the plane section are sequentially arranged along the length direction of the driving piece, and in the process that the A mounting rod passes through the sub A driving surface, the A mounting rod is in the following two states, namely: the inclined surface section is abutted against the A mounting rod, the A clamping piece is in a state gradually far away from the bearing piece, and two of the A clamping pieces are: the plane section is propped against the A mounting rod, the A clamping piece is kept away from the bearing piece, through the arrangement, the A mounting rod or the B mounting rod is driven through the inclined plane section and the plane section, the driving is stable, and the operation is stable. The inclined plane section and the plane section are connected through the transition surface section, the transition surface section is an arc-shaped curved surface, through the design, the A installation rod and the B installation rod are prevented from being blocked and impacted by the driving piece, the stability of the operation process is ensured, and the service life of the component is prolonged.

Through A installation pole and B installation pole be X form and arrange, rationally distributed, can effectually guarantee that the driving piece applys effort to A installation pole and B installation pole, the operation is stable. The B installation pole is the straight-bar, the straight-bar slope arranges, straight-bar slope direction is unanimous with the inclined plane section, A installation pole comprises first straight-bar section and second straight-bar section, first straight-bar section one end rigid coupling A clamping piece, first straight-bar section middle part is through articulated shaft mounting on annular conveyor belt, first straight-bar section is X form with B installation pole and arranges, the other end rigid coupling second straight-bar section of first straight-bar section, second straight-bar section slope sets up, second straight-bar section slope direction is unanimous with the inclined plane section, through above-mentioned design, make the inclined plane section can be steady accurate applys effort, avoid the mutual impact, guarantee the stability of operation process.

The roller is installed at one end of the A installation rod, which is abutted against the A driving surface, the roller is installed at one end of the B installation rod, which is abutted against the B driving surface, and the roller can effectively reduce friction between the A installation rod, the B installation rod and the driving piece, and can also ensure stable operation and reduce noise.

The driving piece is installed in the frame through the lifting assembly, and the lifting assembly is used for adjusting the height of the driving piece, and the distance that the clamping piece A and the clamping piece B are far away from the bearing piece is adjusted.

The invention has stable structure and stable operation, can realize the conveying of the fibers, can clamp the fibers and can loosen the fibers at the clamping positions in the process of conveying the fibers through the drying box, is convenient for the drying box to dry the fibers at the clamping positions, and meets the current use requirements.

Drawings

Fig. 1 is a schematic structural view of a conveying device for a fiber drying apparatus according to the present invention.

Fig. 2 is a schematic structural view of a driving member in a conveying device for a fiber drying apparatus according to the present invention.

Fig. 3 is a schematic structural view of a mounting rod a and a mounting rod B in a conveying device for a fiber drying apparatus according to the present invention.

The corresponding relation of the reference numerals is as follows: 100-rack, 311-endless conveyor belt, 340-carrier, 381-a clamp, 382-B clamp, 383-reset, 384-B mounting bar, 385-a mounting bar, 385 a-first straight bar section, 385B-second straight bar section, 386-roller, 400-oven, 500-drive, 510-a drive face, 520-B drive face, 511-ramp section, 512-plane section.

Detailed Description

The present invention will be specifically described with reference to the following examples in order to make the objects and advantages of the present invention more apparent. It should be understood that the following text is intended to describe only one or more specific embodiments of the invention and does not limit the scope of the invention strictly as claimed.

Example 1

Referring to fig. 1 to 3, a conveying device for a fiber drying apparatus is provided in an embodiment of the present invention, which comprises a frame 100, wherein a drying box 400, an annular conveying belt 311, a bearing member 340, an a clamping member 381, a B clamping member 382, a reset member 383, an a mounting rod 385 and a B mounting rod 384 are provided on the frame 100, the annular conveying belt 311 passes through the drying box 400, the bearing member 340 is used for supporting a fiber, the middle part of the fiber is erected on the bearing member 340, both ends of the fiber are arranged in a hanging manner, the a mounting rod 385 and the B mounting rod 384 are mounted on the annular conveying belt 311 through a hinge shaft, one end of the a mounting rod 385 is fixedly connected with the a clamping member 381, one end of the B mounting rod 384 is fixedly connected with the B clamping member 382, the reset piece 383 makes the A mounting rod 385 and the B mounting rod 384 have a tendency to be propped against the bearing piece 340, so that the A clamping piece 381 and the B clamping piece 382 are tightly attached to the bearing piece 340 to compress fibers, a driving piece 500 is arranged on a conveying path of the annular conveying belt 311, an A driving surface 510 and a B driving surface 520 are arranged on the driving piece 500, when the annular conveying belt 311 conveys the A mounting rod 385 and the B mounting rod 384 to pass through the driving piece 500, the A driving surface 510 and the A mounting rod 385 form an inclined surface driving fit to adjust the rotation of the A mounting rod 385 so that the A clamping piece 381 rotates away from the bearing piece 340, and the B driving surface 520 and the B mounting rod 384 form an inclined surface driving fit to adjust the rotation of the B mounting rod 384 so that the B clamping piece 382 rotates away from the bearing piece 340.

The driving members 500 are arranged along the length direction of the drying box 400, and the a driving surface 510 and the B driving surface 520 are sequentially arranged along the width direction of the endless conveyor 311.

The a driving surface 510 is composed of a plurality of sub a driving surfaces arranged at intervals in sequence, and the B driving surface 520 is composed of a plurality of sub B driving surfaces arranged at intervals in sequence.

The sub-A driving surfaces and the sub-B driving surfaces are staggered along the conveying direction of the annular conveying 311 belt.

The length of the driving surface of the sub A is consistent with that of the driving surface of the sub B.

The a drive faces 510 and the B drive faces 520 are identical in structure, and the pitch between adjacent sub-a drive faces is identical to the length of the sub-B drive faces.

The sub-a driving surface is composed of a bevel section 511 and a plane section 512, the bevel section 511 and the plane section 512 are sequentially arranged along the length direction of the driving member 500, and the a mounting rod 385 is in one of the following two states in the process that the a mounting rod 385 passes through the sub-a driving surface: the ramp section 511 abuts the a mounting bar 385, and the a clamp 381 is in a state of being gradually far from the carrier 340, two of which: the planar segment 512 abuts the a mounting bar 385 and the a clamp 381 is held away from the carrier 340.

One end of the inclined surface section 511 is higher than one end of the a mounting lever 385 against the a driving surface 510, and the other end of the inclined surface section 511 is lower than one end of the a mounting lever 385 against the a driving surface 510, and the inclined surface section 511 is disposed obliquely downward in the conveying direction of the endless conveying belt 311.

The inclined surface section 511 and the plane section 512 are connected through a transition surface section, and the transition surface section is an arc-shaped curved surface.

The a mounting bar 385 and the B mounting bar 384 are arranged in a × configuration.

The B installation pole 384 is the straight-bar, the straight-bar slope arranges, straight-bar slope direction is unanimous with inclined plane section 511, A installation pole 385 comprises first straight-bar section 385a and second straight-bar section 385B, first straight-bar section 385a one end rigid coupling A clamping piece 381, first straight-bar section 385a middle part is installed on annular conveyer belt 311 through the articulated shaft, first straight-bar section 385a is X form with B installation pole 384 and arranges, the other end rigid coupling second straight-bar section 385B of first straight-bar section 385a, second straight-bar section 385B slope sets up, second straight-bar section 385B incline direction is unanimous with inclined plane section 511.

The end of the a mounting bar 385 that abuts the a drive surface 511 is provided with a roller 386 and the end of the B mounting bar 384 that abuts the B drive surface 512 is provided with a roller 386.

The driving member 500 is mounted on the frame 100 by a lifting assembly for adjusting the height of the driving member 500 to achieve adjustment of the distance of the a and B clamping members 381, 382 from the carrier 340.

In use, a conveying device for a fiber drying apparatus according to this embodiment is provided, in which, in the case of annular conveying, 311 conveying fibers through a drying box 400, first, the annular conveying belt carries a carrying member 340 carrying the fibers, an a clamping member 381, a B clamping member 382, a reset member 383, an a mounting lever 385, a B mounting lever 384 into the drying box 400, the a mounting lever 385, B mounting lever pass through a driving member, first, the a mounting lever 385 abuts against an a driving surface 510, a roller 386 on the a mounting lever abuts against a ramp section 511 on a sub a driving surface, the a mounting lever 385 rotates during the abutment against the ramp section 511, so that the a clamping member 381 is gradually moved away from the carrying member 340, then the roller 386 on the a mounting lever abuts against a flat section 512 on the sub a driving surface, the roller 386 no longer rotates during the abutment against the flat section 512, so that the a clamping member 381 is moved together with the annular conveying belt 311 at a position kept away from the carrying member 340, and finally, the roller 386 on the a mounting lever abuts against the ramp section a driving surface, and the a clamping member 383 is reset under the effect of resetting the a new fibers. Then, the process of the B mounting rod 384 abutting against the sub-B driving surface is the same as that of the a mounting rod 385 abutting against the a driving surface 510, and the annular conveying belt 311 drives the bearing piece 340, the a clamping piece 381, the B clamping piece 382, the reset piece 383, the a mounting rod 385 and the B mounting rod 384 to continuously pass through the sub-a driving surface and the sub-B driving surface, so that the a clamping piece and the B clamping piece are alternately far away from the bearing piece, and the drying box is convenient for drying the fibers clamped by the a clamping piece and the B clamping piece.

The invention realizes the drying of the passing fibers through the setting of the drying box 400 by the annular conveying 311, the setting of the bearing piece 340 is used for bearing the fibers, the setting of the A clamping piece 381 and the B clamping piece 382 is used for realizing the clamping function of the fibers on the bearing piece 340, the resetting piece 383 is used for providing a trend that the A clamping piece 385 and the B clamping piece 384 are propped against the bearing piece 340, the A clamping piece 381 and the B clamping piece 382 are tightly stuck on the bearing piece 340 to compress the fibers, and the setting of the driving piece 500 is used for enabling the annular conveying 311 to convey the A mounting piece 385 and the B mounting piece 384 to pass through the driving piece 500, the A driving surface 510 and the A mounting piece 385 form an inclined surface driving fit for adjusting the rotation of the A mounting piece 385 so that the A clamping piece 381 rotates away from the bearing piece 340, and the B driving surface 520 and the B mounting piece 384 form an inclined surface driving fit for adjusting the rotation of the B mounting piece 384 so that the B clamping piece 382 rotates away from the bearing piece 340. The driving member 500 is disposed along the length direction of the drying box 400, so that when the a mounting rod 385 and the B mounting rod 384 pass through the drying box 400, the whole road section can be driven by the driving member 500, the drying effect is ensured, the a driving surface 510 and the B driving surface 520 are sequentially disposed along the width direction of the endless conveyor 311, the a driving surface 510 and the B driving surface 520 are independently disposed, correspond to the a mounting rod 385 and the B mounting rod 384, and do not interfere with each other when the a mounting rod 385 and the B mounting rod 384 are driven.

The a driving surface 510 is composed of a plurality of sub a driving surfaces arranged at intervals in sequence, and the B driving surface 520 is composed of a plurality of sub B driving surfaces arranged at intervals in sequence, by which the a mounting bar 385 and the B mounting bar 384 can be continuously driven. The sub A driving surfaces and the sub B driving surfaces are arranged in a staggered manner along the conveying direction of the annular conveying belt 311, so that the A mounting rod 385 and the B mounting rod 384 are driven in a staggered manner, the A clamping piece 381 and the B clamping piece 382 are far away from the bearing piece 340 in a staggered manner, and the situation that fibers fall off due to the fact that the A clamping piece 381 and the B clamping piece 382 are far away from the bearing piece at the same time is avoided. The length of the sub-a driving surface and the length of the sub-B driving surface are identical such that the time to drive the a mounting lever 385 and the B mounting lever 384 is the same, and the time for the a clamp 381 and the B clamp 382 to move away from the carrier 340 is the same. The structure of the a driving surface 510 is identical to that of the B driving surface 520, and the distance between the adjacent sub a driving surfaces is identical to the length of the sub B driving surface, so that the time for driving the a mounting rod 385 and the B mounting rod 384 in a staggered manner is identical, and when the a clamping member 381 is far away from the carrier 340, the B clamping member 382 is reset to compress the fibers, so that the fibers are prevented from falling off. The sub-a driving surface is composed of a bevel section 511 and a plane section 512, the bevel section 511 and the plane section 512 are sequentially arranged along the length direction of the driving piece, and the a mounting rod 385 is in one of the following two states in the process of passing through the sub-a driving surface: the ramp section 511 abuts the a mounting bar 385, the a clamp 381 being in a state of being progressively further away from the carrier, two: the flat section 512 abuts against the a mounting lever 385, and the a clamping member 381 is kept away from the carrier 340, and by the above arrangement, the a mounting lever 385 or the B mounting lever 384 is driven by the inclined surface section 511 and the flat section 512, and the driving is stable and the operation is stable. The inclined surface section 511 and the plane section 512 are connected through the transition surface section, the transition surface section is an arc-shaped curved surface, through the design, the clamping of the A installation rod 385 and the B installation rod 384 and the impact driving piece 500 are avoided, the stability of the operation process is ensured, and the service life of the component is prolonged.

Through the arrangement of the A mounting rod 385 and the B mounting rod 384 in an X shape, the layout is reasonable, and the driving piece 500 can effectively ensure that the driving piece 500 applies acting force to the A mounting rod 385 and the B mounting rod 384 and the operation is stable. The B installation pole 384 is the straight-bar, the straight-bar slope arranges, straight-bar slope direction is unanimous with inclined plane section 511, A installation pole 385 comprises first straight-bar section 385a and second straight-bar section 385B, first straight-bar section 385a one end rigid coupling A clamping piece 381, first straight-bar section 385a middle part is installed on annular conveyer belt 311 through the articulated shaft, first straight-bar section 385a is X form with B installation pole 384 and arranges, the other end rigid coupling second straight-bar section 385B of first straight-bar section 385a, second straight-bar section 385B slope sets up, second straight-bar section 385B inclination direction is unanimous with inclined plane section 511, through above-mentioned design, make inclined plane section 511 can be steady accurate applys effort, avoid each other impact, guarantee the stability of operation process.

The roller 386 is installed at one end of the a mounting rod 385 abutting against the a driving surface 510, the roller 386 is installed at one end of the B mounting rod 384 abutting against the B driving surface 520, and the roller 386 can effectively reduce friction between the a mounting rod 385 and the B mounting rod 384 and the driving member 500, and can also ensure stable operation and reduce noise.

The driving member 500 is mounted on the frame 100 by a lifting assembly for adjusting the height of the driving member to achieve adjustment of the distance of the a and B clamping members 381, 382 from the carrier 340.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims

1. A conveying device for fiber drying equipment is characterized by comprising a frame (100), wherein a drying box (400), an annular conveying belt (311), a bearing piece (340), an A clamping piece (381), a B clamping piece (382), a reset piece (383), an A mounting rod (385) and a B mounting rod (384) are arranged on the frame (100), the annular conveying belt (311) passes through the drying box (400), the bearing piece (340) is used for bearing fibers, the middle part of the fibers is arranged on the bearing piece (340) in a erecting mode, two ends of the A mounting rod (385) and the B mounting rod (384) are arranged in a hanging mode, one end of the A mounting rod (385) is fixedly connected with an A clamping piece (381), one end of the B mounting rod (384) is fixedly connected with a B clamping piece (382), the reset piece (383) enables the A clamping piece (385) and the B mounting rod (384) to have a trend of propping against the bearing piece (340), the A clamping piece (381) and the B clamping piece (382) are tightly pressed on the bearing piece (340), the conveying belt (311) is arranged on a conveying path (311) in a hanging mode, a driving surface (500) is arranged on a driving surface (510), when the annular conveying belt (311) conveys the A mounting rod (385) and the B mounting rod (384) to pass through the driving piece (500), the A driving surface (510) and the A mounting rod (385) form an inclined surface driving fit to adjust the rotation of the A mounting rod (385) so that the A clamping piece (381) rotates away from the bearing piece (340), and the B driving surface (520) and the B mounting rod (384) form an inclined surface driving fit to adjust the rotation of the B mounting rod (384) so that the B clamping piece (382) rotates away from the bearing piece (340);

the driving piece (500) is arranged along the length direction of the drying box (400), and the driving surface A (510) and the driving surface B (520) are sequentially arranged along the width direction of the annular conveying belt (311); the driving surface A (510) consists of a plurality of sub-driving surfaces A which are arranged at intervals in sequence, and the driving surface B (520) consists of a plurality of sub-driving surfaces B which are arranged at intervals in sequence; the driving surfaces of the sub A and the driving surfaces of the sub B are staggered along the conveying direction of the annular conveying (311) belt; the length of the driving surface of the sub A is consistent with that of the driving surface of the sub B; the structure of the A driving surface (510) and the structure of the B driving surface (520) are the same, and the distance between adjacent sub-A driving surfaces are consistent with the length of the sub-B driving surfaces; the sub A driving surface consists of an inclined surface section (511) and a plane section (512), wherein the inclined surface section (511) and the plane section (512) are sequentially arranged along the length direction of the driving piece (500), and the A mounting rod (385) is in the following two states in the process of passing through the sub A driving surface, namely: the bevel section (511) abuts against the A mounting bar (385), and the A clamping member (381) is in a state gradually away from the bearing member (340), and two of them: the planar section (512) abuts against the A mounting bar (385), and the A clamping member (381) is in a state of being kept away from the carrier member (340);

the A mounting rod (385) and the B mounting rod (384) are arranged in an X-shaped manner;

the B installation pole (384) is the straight-bar, and straight-bar slope arrangement, straight-bar slope direction and inclined plane section (511) are unanimous, and A installation pole (385) comprises first straight-bar section (385 a) and second straight-bar section (385B), and first straight-bar section (385 a) one end rigid coupling A clamping part (381), first straight-bar section (385 a) middle part are installed on annular conveyer belt (311) through the articulated shaft, and first straight-bar section (385 a) are X form with B installation pole (384) and arrange, and the other end rigid coupling second straight-bar section (385B) of first straight-bar section (385 a), and second straight-bar section (385B) slope setting, second straight-bar section (385B) incline direction is unanimous with inclined plane section (511).

2. Conveyor device for a fibre drying apparatus according to claim 1, characterized in that one end of the ramp section (511) is higher than the end of the a-mounting bar (385) against the a-drive surface (510), the other end of the ramp section (511) is lower than the end of the a-mounting bar (385) against the a-drive surface (510), the ramp section (511) being arranged obliquely downwards in the conveying direction of the endless conveyor belt (311).

3. A conveying device for a fibre drying apparatus according to claim 1, characterized in that the bevel section (511) and the flat section (512) are connected by a transition section, which is an arc-shaped curved surface.

4. A conveyor for a fibre drying apparatus according to claim 1, characterized in that the end of the a mounting bar (385) against the a drive surface is provided with a roller (386), and the end of the B mounting bar (384) against the B drive surface is provided with a roller (386).

5. Conveyor device for a fibre drying apparatus according to claim 4, characterized in that the driving member (500) is mounted on the frame (100) by means of a lifting assembly for adjusting the height of the driving member (500) for adjusting the distance of the a clamp member (381) and the B clamp member (382) from the carrier member (340).