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CN-121976367-A - Processing device for carbon fiber composite textile material

CN121976367ACN 121976367 ACN121976367 ACN 121976367ACN-121976367-A

Abstract

The invention provides a processing device of a carbon fiber composite textile material, which comprises: compared with the prior art, the invention has the beneficial effects that the device can drive a plurality of groups of stirring blades to rotate through linkage by arranging the motor, the rotating shaft, the first turntable and the stirring blades, so that the ethanol solvent in the soaking barrel is stirred, the grease and impurities on the surface of the carbon fiber composite textile material are quickened, the dissolution efficiency and the working efficiency are improved, the air drying speed of the carbon fiber composite textile material is quickened, the working efficiency is improved, the air is filtered and the peculiar smell is removed by arranging the first filter box and the second filter box, the working environment is protected, and the device can be conveniently maintained by arranging the threaded connecting pipe and the screwed groove, so that the working efficiency of the device is prevented from being influenced by the accumulation of impurities.

Inventors

  • LI PENGGUO
  • ZHANG SHUANGQIN
  • YANG YING
  • YANG JUNKE

Assignees

  • 中山市恒辉自动化科技有限公司

Dates

Publication Date
20260505
Application Date
20260303

Claims (9)

  1. 1. The processing device of the carbon fiber composite textile material comprises a main body shell (100), a first filter box (150) and a soaking barrel (260), and is characterized in that a first top cover (170) is arranged on the left side of the top of the main body shell (100), a second top cover (180) is arranged on the right side of the first top cover (170), and a group of bases (110) are arranged at the bottom of the main body shell (100); A first group of sleeving plates (130) are arranged on the left side of the side face of the main body shell (100), a first group of filtering boxes (150) are arranged on the left side of the first sleeving plates (130), a second group of sleeving plates (140) are arranged on the right side of the side face of the main body shell (100), a second group of filtering boxes (160) are arranged on the right side of the second sleeving plates (140), a group of supporting brackets (220) are arranged above the inside of the main body shell (100), a group of embedded grooves are respectively formed in the left side and the right side of the inside of the supporting brackets (220), and a plurality of groups of springs III (720) are arranged at the bottom of the inside of the supporting brackets (220); The novel multifunctional water storage device is characterized in that a group of working boxes (230) are arranged inside the support bracket (220), a group of connecting pipes (240) are arranged below the working boxes (230), a group of placing barrels (250) are arranged below the connecting pipes (240), a group of soaking barrels (260) are arranged outside the placing barrels (250), a group of fixing frames (270) are arranged outside the soaking barrels (260), a group of motor cavities are arranged at the center inside the base (110), and two groups of water storage cavities (320) are formed in the left side and the right side of each motor cavity.
  2. 2. The processing device of the carbon fiber composite textile material according to claim 1, wherein the bottom of the fixing frame (270) is in through connection with the tops of the two groups of water storage cavities (320) through two groups of water guide pipes (290), a group of observation glass is arranged on the front surface of the main body shell (100), the observation glass is toughened glass, a group of water stop valves are respectively arranged on the left side and the right side below the front surface of the main body shell (100), and the rear sides of the water stop valves penetrate through the front surface of the main body shell (100) and are in through connection with the water guide pipes (290); The novel wet-removing device is characterized in that the main body casing (100) is made of stainless steel, the base (110) is made of stainless steel, two groups of supporting feet are arranged on the left side and the right side of the bottom of the base (110), two groups of supporting feet are made of natural rubber, a group of water outlets (120) are respectively formed in the left side and the right side of the front face of the base (110) in a penetrating mode, the two groups of water outlets (120) are respectively connected with the two groups of water storage cavities (320) in a penetrating mode, a group of first wet-removing pipes (340) are arranged in the left side of the main body casing (100) in a penetrating mode, and a group of second wet-removing pipes (350) are arranged in the right side of the main body casing (100).
  3. 3. The device for processing the carbon fiber composite textile material according to claim 1, wherein the left side of the top of the first top cover (170) is hinged with the top of the main body shell (100) through a first hinge post, and the right side of the top of the second top cover (180) is hinged with the top of the main body shell (100) through a second hinge post; A group of air inlets (190) are respectively formed in a penetrating mode in the left side of the top of the first top cover (170) and the right side of the top of the second top cover (180), a first dust screen is mounted in the air inlets (190), a group of first knobs (200) are arranged on the rear side of the top of the first top cover (170), a group of second clamping grooves (410) are formed in the front of the right side of the first top cover (170), a group of second knobs (210) are arranged on the front side of the top of the second top cover (180), and a group of first clamping grooves (380) are formed in the rear of the left side face of the second top cover (180).
  4. 4. The device for processing the carbon fiber composite textile material according to claim 3, wherein a group of transmission cavities I are arranged below the knob I (200), a group of gears I (360) are arranged on the rear side inside the transmission cavities I, the knob I (200) and the gears I (360) are fixedly connected through a group of transmission shafts I, a group of clamping strips I (370) are arranged in front of the gears I (360), the front sides of the gears I (360) are meshed with the rear sides of the clamping strips I (370), the right sides of the transmission cavities I are of a through structure, the clamping strips I (370) are opposite to the clamping grooves I (380), and the width and the height of the clamping strips I (370) are smaller than those of the clamping grooves I (380); The rotary knob comprises a knob body, and is characterized in that a group of transmission cavities II are arranged below the knob body (210), a group of gears II (390) are arranged on the front side of the transmission cavities II, the knob body (210) is fixedly connected with the gears II (390) through a group of transmission shafts II, a group of clamping strips II (400) are arranged behind the gears II (390), the rear side of the gears II (390) is meshed with the front side of the clamping strips II (400), the left side of the transmission cavities II is of a through structure, the clamping strips II (400) are opposite to the clamping grooves II (410) in position, and the width and the height of the clamping strips II (400) are smaller than those of the clamping grooves II (410).
  5. 5. The device for processing the carbon fiber composite textile material according to claim 1, wherein the front side and the rear side of the first sleeving plate (130) and the second sleeving plate (140) are respectively provided with two groups of fixing lugs, four groups of fixing lugs are fixedly connected through four groups of bolts, the first filtering box (150) and the first sleeving plate (130) are of an integrated structure, the inside of the first filtering box (150) is of a hollow structure, and the right side of the first filtering box (150) is in through connection with the left side of the first dehumidifying pipe (340); The filter box II (160) and the sleeve joint plate II (140) are of an integrated structure, the inside of the filter box II (160) is of a hollow structure, active carbon particles (330) are arranged in the filter box I (150) and the filter box II (160), the left side of the filter box II (160) is connected with the right side of the dehumidifying pipe II (350) in a penetrating mode, a group of air outlets I are formed in the left side of the filter box I (150) in a penetrating mode, and a group of air outlets II are formed in the right side of the filter box II (160) in a closing mode.
  6. 6. The processing device of the carbon fiber composite textile material according to claim 1, wherein a plurality of groups of stirring blades are welded above the inner wall of the soaking barrel (260), a group of pressurizing cavities I (460) are formed inside the lower part of the soaking barrel (260), a group of pressurizing cavities II (470) are respectively formed on the left side and the right side of the pressurizing cavities I (460), the left side and the right side below the pressurizing cavities I (460) are respectively communicated with the lower parts of the pressurizing cavities II (470), a group of water leakage ports (420) are respectively formed above each pressurizing cavity II (470) in a penetrating manner, and sealing rubber strips are arranged on the inner walls of the penetrating positions; Every group the draw-in groove three (480) have all been seted up at water leakage mouth (420) top, pressure boost chamber one (460) bottom equidistance is equipped with a plurality of group's spring one (520), pressure boost chamber one (460) inside is equipped with a set of pressure boost board (510), pressure boost board (510) top is equipped with a set of connecting rod (500), connecting rod (500) top upwards runs through soaking barrel (260) bottom, and it runs through the department top and is equipped with the sealing washer, connecting rod (500) top is equipped with a set of cross drive piece (490), every group pressure boost chamber two (470) inside all is equipped with a set of breakwater (430), the length, width and the height of breakwater (430) are all greater than the length, width and the height of water leakage mouth (420).
  7. 7. The processing device of the carbon fiber composite textile material according to claim 1, wherein four groups of inserting rods (450) are equidistantly arranged in an annular area, close to the center of a circle, of the bottom of the soaking barrel (260), the bottom of the fixing frame (270) is downwards sunken to form a group of rotating grooves I (540), a group of rotating discs I (280) are arranged in the rotating grooves I (540), four groups of inserting grooves (530) are formed in the tops of the rotating discs I (280), the positions of the four groups of inserting grooves (530) are in one-to-one correspondence with the positions of the four groups of inserting rods (450), the radius length of each inserting rod (450) is smaller than that of each inserting rod (530), and the height of each inserting rod (450) is smaller than that of each inserting groove (530); A group of first ball grooves (440) are formed in an annular area, far away from the center, of the bottom of the soaking barrel (260), a group of second ball grooves (550) are formed in the bottom of the fixing frame (270), the first ball grooves (440) and the second ball grooves (550) are opposite in position, the first ball grooves (440) and the second ball grooves (550) are identical in radius length, a plurality of groups of first universal balls (560) are arranged between the first ball grooves (440) and the second ball grooves (550), a group of motors (300) are arranged in the motor cavity, the motors (300) are servo motors (300), a group of rotating shafts (310) are arranged at the tops of the motors (300), the tops of the motors (300) are connected with the bottoms of the rotating shafts (310) through transmission mechanisms, and the tops of the rotating shafts (310) penetrate through the bottoms of the fixing frame (270) and are fixedly connected with the bottoms of the rotating discs (280).
  8. 8. The processing device of the carbon fiber composite textile material according to claim 1, wherein a plurality of groups of through holes are formed in the side face of the placing barrel (250) in a penetrating manner, a screwing groove (710) is formed in the inner side of the top of the placing barrel (250), an inner spiral groove is formed in the inner side of the screwing groove (710), a group of rotating grooves II (590) are formed by upwards sinking at the center of the bottom of the placing barrel (250), a group of rotating discs II (570) are arranged in the rotating grooves II (590), a group of cross transmission grooves (580) are formed in the bottom of the rotating discs II (570), and a plurality of groups of universal balls II (600) are arranged between the rotating discs II (590); The length, width and depth of cross transmission groove (580) are all greater than the length, width and the height of cross transmission piece (490), connecting pipe (240) below is equipped with a set of screw thread connecting pipe (700), the screw thread is seted up in screw thread connecting pipe (700) outside, the radius length of screw thread connecting pipe (700) is less than the radius length of spin joint groove (710), the length of screw thread connecting pipe (700) equals the length of spin joint groove (710), connecting pipe (240) and work box (230) are integrated into one piece structure, connecting pipe (240) top and work box (230) bottom are the through structure, a set of unblock groove (640) have been seted up respectively to work box (230) top left and right sides.
  9. 9. The processing device of the carbon fiber composite textile material according to claim 8, wherein a group of unlocking buttons (650) are arranged above each group of unlocking grooves (640), a group of telescopic cavities (660) are arranged below each group of unlocking grooves (640), a group of telescopic ports are formed in a penetrating manner on one side, far away from the center of a circle, of each group of telescopic cavities (660), a plurality of groups of springs II (670) are respectively arranged at front and rear positions on one side, far away from the center of a circle, of each telescopic cavity (660), a group of limiting blocks (690) are arranged on one side, close to the center of a circle, of each limiting block (690), a group of clamping heads (680) are arranged on one side, close to the center of a circle, of each limiting block (690), and the length and the width of each clamping head (680) are smaller than those of each telescopic port and each embedding groove; The utility model discloses a dustproof device for the electric vehicle is characterized by comprising an unlocking button (650), a limiting block (690), an unlocking groove (640), a telescopic cavity (660), two groups of handles (620), an air circulation mechanism (610) and a dustproof net II, wherein the unlocking button (650) is connected with the limiting block (690) through a group of fixed rods, the bottom of the unlocking groove (640) is in through connection with the top of the telescopic cavity (660), the two groups of handles (620) are welded and fixed on the inner side of the unlocking groove (640), the two groups of handles (620) are in through connection, the air circulation mechanism (610) is composed of a fan, an electric power system and a connecting system, and the dustproof net II is arranged above the air circulation mechanism (610).

Description

Processing device for carbon fiber composite textile material Technical Field The invention belongs to the technical field of composite textile material processing, and particularly relates to a processing device for a carbon fiber composite textile material. Background In the processing of carbon fiber composite textile materials, a soaking device is commonly used for soaking, degreasing and impurity removal of the carbon fiber composite textile materials, and the soaking device is generally rectangular or circular and is used for soaking the fiber materials in a degreasing agent or a cleaning agent to remove fat and impurities. The steeping device is typically made of a corrosion resistant material such as stainless steel. In the soaking device, the fibrous material is completely soaked in the degreasing solution, and a stirring device or a vortex system may be used to increase the cleaning effect of the solution on the fibrous material. In the processing process, the carbon fiber composite textile material needs to be naturally air-dried or air-dried through air circulation after being soaked, degreased and removed, ethanol solvent residual liquid can be mixed in circulated air in the air-drying process, if the moist air containing the ethanol solvent residual liquid is directly discharged into the outside air, peculiar smell can be generated, the peculiar smell can cause environmental pollution, meanwhile, the working environment of operators can be influenced, and further the health of the operators is influenced. Secondly, soak device and filter equipment can produce impurity siltation in the inside after long-term use, if untimely handling, can block up the device and lead to the device to damage, so need to carry out periodic maintenance and cleanness to it, traditional soak device and filter equipment are through dismantling wholly to maintain and clean inside, this will greatly increased maintenance cost and maintenance time, so through setting up convenient to detach's machine will effectively reduce maintenance cost and maintenance time, increase work efficiency. Therefore, in order to ensure the quality and processing efficiency of the carbon fiber composite textile material, and the normal operation of the equipment, it is very important to provide a filtering mechanism and a soaking mechanism which are convenient to detach. These mechanisms can effectively remove impurities and facilitate maintenance and cleaning of equipment, so it is desirable to develop a processing device for carbon fiber composite textile materials to solve the above problems. Disclosure of Invention Aiming at the defects existing in the prior art, the invention aims to provide a processing device for a carbon fiber composite textile material, which solves the problems in the prior art. The invention is realized by the following technical scheme that the processing device of the carbon fiber composite textile material comprises a main body shell, a first filtering box and a soaking barrel, wherein a first top cover is arranged on the left side of the top of the main body shell, a second top cover is arranged on the right side of the first top cover, and a group of bases are arranged at the bottom of the main body shell; the left side of the side surface of the main body shell is provided with a first group of sleeving plates, the left side of the first sleeving plates is provided with a first group of filter boxes, the right side of the side surface of the main body shell is provided with a second group of sleeving plates, the right side of the second sleeving plates is provided with a second group of filter boxes, the upper part inside the main body shell is provided with a group of support brackets, the left side and the right side inside the support brackets are respectively provided with a group of embedded grooves, and the bottom inside the support brackets is provided with a plurality of groups of springs III; the inside a set of work box that is equipped with of support bracket, work box below is equipped with a set of connecting pipe, and the connecting pipe below is equipped with a set of bucket of placing, and the bucket outside of placing is equipped with a set of bucket of soaking, and the bucket outside of soaking is equipped with a set of mount, and the inside central authorities of base are equipped with a set of motor chamber, and motor chamber left and right sides is equipped with two sets of water storage chamber. As a preferred implementation mode, the bottom of the fixing frame is in through connection with the tops of the two groups of water storage cavities through two groups of water guide pipes, a group of observation glass is arranged on the front face of the main body shell, the observation glass is toughened glass, a group of water stop valves are respectively arranged on the left side and the right side below the front face of the main body shell, and the rear sides of the water stop valves pe