CN-224207799-U - Anti-agglomeration treatment device for short fiber processing

Abstract

The utility model discloses an anti-agglomeration treatment device for processing short fibers, which comprises a processing box, a driving unit, a top cover, blowers, tubular heat exchangers, a shaft rod and a top air port, wherein the driving unit is arranged on one side of the processing box, the top of the processing box is arranged in an opening mode, the top cover is arranged at the open end of the top of the processing box, the blowers are arranged on the other side of the processing box, the tubular heat exchangers are arranged in the middle parts of two sides of the outer surface of the processing box, the shaft rod is arranged below the middle part of the inner side of the processing box, and the top air port is arranged in the middle part of the top surface of the top cover. This short fiber processing is with preventing reunion processing apparatus through carrying out heating treatment to the box inside air, effectively reduces fibre surface property, reduces static adsorption, promotes dispersion stability, and the device is through hot air current blast structure, effectively improves the device and breaks up the effect of preventing reunion to the short fiber, has embodied the short fiber processing and has prevented the high efficiency of reunion.

Inventors

• Gu Rugang

Assignees

• 苏州正邦化纤有限公司

Dates

Publication Date

20260508

Application Date

20250604

Claims (8)

1. 1. The utility model provides a short fiber processing is with preventing reunion processing apparatus, includes processing case (1), drive unit (2), top cap (3), hair-dryer (4), tubular heat exchanger (5), axostylus axostyle (6) and top wind gap (7), a serial communication port, one side of processing case (1) is provided with drive unit (2), the top of processing case (1) is open-ended setting, top cap (3) are installed to the open-top end of processing case (1), the opposite side of processing case (1) is provided with hair-dryer (4), processing case (1) surface both sides middle part all is provided with tubular heat exchanger (5), axostylus axostyle (6) are installed to the inboard middle part below of processing case (1), top wind gap (7) have been seted up at the top surface middle part of top cap (3).
2. 2. The anti-agglomeration treatment device for processing short fibers according to claim 1, wherein the top cover (3) is in a sliding cover type, sliding grooves are formed in the edges of the two sides of the top surface of the processing box (1), and sliding blocks matched with the sliding grooves in a sliding manner are arranged at the corresponding positions of the two sides of the bottom surface of the top cover (3).
3. 3. The anti-aggregation treatment device for processing short fibers according to claim 1, wherein two blowers (4) are respectively arranged above the two sides of the right end of the processing box (1).
4. 4. The anti-aggregation treatment device for processing short fibers according to claim 1, wherein the air outlet ends of the two blowers (4) are positioned above the inside of the processing box (1), an air expansion pipe is arranged at the air outlet end port of one blower (4), the air outlet direction of the air expansion pipe is inclined downwards in the inside of the processing box (1), and the air outlet end port direction of the other blower (4) is in a straight line orientation in the inside of the processing box (1).
5. 5. The anti-agglomeration treatment device for processing short fibers according to claim 1, wherein the heat source outlet end of the tubular heat exchanger (5) is positioned on the inner side of the processing box (1), the heat source outlet end of the tubular heat exchanger (5) is provided with a double-layer protection dense net (501), and the same double-layer protection dense net (501) is installed at a top air opening (7) on the top surface of the top cover (3).
6. 6. The anti-agglomeration treatment device for processing short fibers according to claim 1, wherein four mounting sleeves (601) are uniformly distributed on two sides and the middle of the surface of the shaft rod (6), and mounting holders (602) are mounted on four sides of the outer wall of each mounting sleeve (601).
7. 7. The anti-aggregation treatment device for short fiber processing according to claim 6, wherein the reamer (603) is clamped and mounted at the middle parts of the mounting clamp seats (602) at the left side and the right side, the end parts of the reamer (603) are provided with blades (604), the blades (604) are distributed in a matrix at the end parts of the reamer (603), and stirring blades (605) are clamped and mounted at the middle parts of the mounting clamp seats (602) at the upper side and the lower side.
8. 8. The anti-aggregation treatment device for processing the short fibers according to claim 7, wherein a clamping groove is formed between two adjacent mounting clamping seats (602), and connecting ends of the reamer (603) and the stirring blade (605) and the mounting clamping seats (602) are inserted into the middle parts of the clamping grooves, and the middle parts are fixed through bolts.

Description

Anti-agglomeration treatment device for short fiber processing Technical Field The utility model relates to the technical field of short fiber processing equipment, in particular to an anti-aggregation treatment device for short fiber processing. Background The short fiber processing is a key link in the production of chemical fibers, and aims to process the undrawn yarn after spinning and forming into the short fiber meeting the use requirements through a series of processes, and the fiber can obtain higher strength, better dispersibility and better use performance through processing, so that the requirements of the fields of spinning, non-woven fabrics, composite materials and the like are met, and the short fiber is widely applied to the fields of spinning, non-woven fabrics, composite materials, automotive interiors, filter materials and the like, and becomes an important raw material in the industries through the excellent dispersibility and use performance. The existing anti-agglomeration treatment device for short fiber processing has low anti-agglomeration efficiency in short fiber processing in use, for example, the anti-agglomeration treatment device for rock wool fibers is disclosed in the application number CN 202123323209.6. The existing device mainly relies on single liquid velocity to adjust to promote stirring efficiency, but short fiber is because of the surface energy is high, easily produce static, simply rely on the liquid velocity to be difficult to thoroughly break the aggregation structure, lead to dispersion effect unstable, and stirring mode is single, only through liquid velocity adjustment, lack mechanical shearing and air current disturbance's synergism, be difficult to deal with high concentration, long fiber's processing demand, the hot air current accessible reduces the fiber surface energy, reduce static adsorption, modes such as accelerating solvent volatilize are showing and are promoting anti-aggregation effect, however, current device can not design hot air current structure of blowing, can't utilize heat energy synergism, the promotion of dispersion efficiency has been restricted, not integrated heat source or hot air current system, can't dry or preheat in step in the dispersion process, lead to production cycle extension, and the efficiency of short fiber processing anti-aggregation has been reduced. Therefore, it is necessary to solve the above problems by inventing an anti-aggregation treatment device for processing short fibers. Disclosure of utility model The utility model aims to provide an anti-aggregation treatment device for processing short fibers, which aims to solve the problem of low anti-aggregation efficiency of short fiber processing in the prior art. In order to achieve the above purpose, the utility model provides the technical scheme that the anti-agglomeration treatment device for processing the short fibers comprises a processing box, a driving unit, a top cover, a blower, a tubular heat exchanger, a shaft rod and a top air port, wherein the driving unit is arranged on one side of the processing box, the top of the processing box is arranged in an opening mode, the top cover is installed at the opening end of the top of the processing box, the blower is arranged on the other side of the processing box, the tubular heat exchanger is arranged in the middle of two sides of the outer surface of the processing box, the shaft rod is installed below the middle of the inner side of the processing box, and the top air port is formed in the middle of the top surface of the top cover. Preferably, the top cover is in a sliding cover type, sliding grooves are formed in edges of two sides of the top surface of the processing box, and sliding blocks matched with the sliding grooves in a sliding manner are installed at corresponding positions of two sides of the bottom surface of the top cover. Preferably, the blowers are respectively arranged at two positions and are respectively positioned above the two sides of the right end of the processing box. Preferably, the air outlet ends of the two blowers are all located above the interior of the processing box, one side of the air outlet end port of the blower is provided with an air expansion pipe, the air outlet direction of the air expansion pipe is inclined downwards in the interior of the processing box, and the air outlet end port direction of the blower is in a straight line orientation in the interior of the processing box. Preferably, the heat source outlet end of the tubular heat exchanger is positioned at the inner side of the processing box, the heat source outlet end of the tubular heat exchanger is provided with a double-layer protection dense net, and the same double-layer protection dense net is installed at an air opening at the top surface of the top cover. Preferably, four mounting sleeves are uniformly distributed on two sides and the middle of the surface of the shaft rod respectively, and mounting