CN220224730U - Fixed-length cutting device for carbon fiber woven cloth - Google Patents
Fixed-length cutting device for carbon fiber woven cloth Download PDFInfo
- Publication number
- CN220224730U CN220224730U CN202321248418.5U CN202321248418U CN220224730U CN 220224730 U CN220224730 U CN 220224730U CN 202321248418 U CN202321248418 U CN 202321248418U CN 220224730 U CN220224730 U CN 220224730U
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- fixedly connected
- semicircular
- rods
- frame
- woven cloth
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- 239000004744 fabric Substances 0.000 title claims abstract description 40
- 229920000049 Carbon (fiber) Polymers 0.000 title claims abstract description 15
- 239000004917 carbon fiber Substances 0.000 title claims abstract description 15
- VNWKTOKETHGBQD-UHFFFAOYSA-N methane Chemical compound C VNWKTOKETHGBQD-UHFFFAOYSA-N 0.000 title claims abstract description 15
- 230000005540 biological transmission Effects 0.000 claims abstract description 6
- 230000000694 effects Effects 0.000 abstract description 4
- 239000002759 woven fabric Substances 0.000 description 6
- 238000000034 method Methods 0.000 description 5
- 239000000463 material Substances 0.000 description 3
- 210000003781 tooth socket Anatomy 0.000 description 2
- 229910000831 Steel Inorganic materials 0.000 description 1
- 238000007792 addition Methods 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000000149 penetrating effect Effects 0.000 description 1
- 238000000926 separation method Methods 0.000 description 1
- 239000010959 steel Substances 0.000 description 1
- 230000001360 synchronised effect Effects 0.000 description 1
- 238000009941 weaving Methods 0.000 description 1
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W30/00—Technologies for solid waste management
- Y02W30/50—Reuse, recycling or recovery technologies
- Y02W30/66—Disintegrating fibre-containing textile articles to obtain fibres for re-use
Landscapes
- Treatment Of Fiber Materials (AREA)
Abstract
The utility model relates to the technical field of cutting of carbon fiber woven cloth, in particular to a fixed-length cutting device of carbon fiber woven cloth. According to the utility model, the cloth is moved to the lower part of the U-shaped frame by starting the cutter body, the driving motor is started to drive the two screws to synchronously rotate through the belt pulley and the transmission belt, so that the two screws can drive the two moving blocks to move in opposite directions or move in opposite directions, the two moving blocks move in opposite directions to fold the two semicircular rods, the two pull ropes relax to enable the electric push rods to automatically topple, the electric push rods are started to drive the two semicircular gears and the adjacent pressing plates to reciprocate through the tooth grooves to press the woven cloth, and when the two moving blocks move in opposite directions, the two moving blocks drive the adjacent semicircular rods to separate through the clamping blocks, so that the two pressing plates translate and press the woven cloth again, and the pressing effect is improved.
Description
Technical Field
The utility model relates to the technical field of carbon fiber woven cloth cutting, in particular to a carbon fiber woven cloth fixed-length cutting device.
Background
When the mill cuts the carbon fiber woven cloth, most of the carbon fiber woven cloth can be cut by using a full-automatic cutting machine, the full-automatic cutting machine cuts the woven cloth by means of a cutting device on the full-automatic cutting machine, and the cutting device can automatically shift by means of a triaxial moving mechanism on the cutting machine, so that the woven cloth is quantitatively and fixedly cut, and the cloth can be automatically pulled by the cutting device to be moved to a platform for cutting, however, when the cloth is improperly stored or folded and stored for a long time, a large crease can exist on the cloth, the cloth at the crease is in a raised or sunken state, and at the moment, the cut product can be deformed, so that the cut product is inconvenient.
Disclosure of Invention
In order to overcome the technical problems, the utility model aims to provide the fixed-length cutting device for the carbon fiber woven cloth, which is characterized in that a cutting machine body is started to move cloth below a U-shaped frame, a driving motor is started to drive two screws to synchronously rotate through a belt pulley and a transmission belt, so that the two screws can drive two moving blocks to move oppositely or move oppositely and reversely, the two moving blocks move oppositely to fold two semicircular rods, the two pull ropes relax to enable an electric push rod to automatically topple over, the electric push rod is started to drive two semicircular gears and adjacent pressing plates to reciprocate through tooth grooves to press the woven cloth, and when the two moving blocks move reversely, the two moving blocks drive the adjacent semicircular rods to be separated through clamping blocks, so that the two pressing plates translate and press the woven cloth again, and the pressing effect is improved.
The aim of the utility model can be achieved by the following technical scheme:
the fixed-length cutting device for the carbon fiber woven cloth comprises a cutting machine body, wherein a U-shaped frame is fixedly connected to the top surface of the cutting machine body, a pressing mechanism is arranged inside the U-shaped frame, a driving mechanism is arranged inside the U-shaped frame, and a lifting mechanism is arranged in the driving mechanism in a matched mode;
the pressing mechanism comprises two semicircular rods, the top surface of the U-shaped frame is provided with a caulking groove, the two semicircular rods are all located inside the caulking groove, the two semicircular rods are fixedly connected with pressing plates at the bottom ends, semicircular gears are fixedly connected to the top ends of the two semicircular rods, and the two semicircular gears are all meshed with the lifting mechanism.
The method is further characterized in that: the driving mechanism comprises two moving blocks, wherein two arc clamping grooves are formed in adjacent sides of the two moving blocks, guide grooves are formed in outer cambered surfaces of the semicircular rods, clamping blocks are connected inside the two guide grooves in a sliding mode, the clamping blocks are movably clamped inside the two arc clamping grooves respectively, one end of each of the bottom surfaces in the two guide grooves is fixedly connected with a rebound spring fixedly connected with the bottom surface of the adjacent clamping block, two threaded rods are connected between two ends of each of the embedded grooves in a rotating mode, threaded holes are formed in two ends of each of the two moving blocks, two inner side walls of the threaded holes located on the same moving block are respectively screwed with the outer side walls of the two threaded rods, one end of each of the threaded rods is connected with a belt pulley in a penetrating mode, a driving belt is sleeved on the outer side walls of the belt pulley in a rotating mode, a driving motor is fixedly connected to one end of the U-shaped frame, and a motor shaft of the driving motor is fixedly connected with one end of each of the threaded rods.
The method is further characterized in that: and two adjacent sides of the moving block are arc-shaped surfaces.
The method is further characterized in that: the lifting mechanism comprises a rotating block, the rotating block is rotationally connected to one side of a U-shaped frame, one end of the rotating block is fixedly connected with an electric push rod, the outer side wall of the electric push rod is fixedly sleeved with a lantern ring, the outer side wall of the lantern ring is fixedly connected with two pull ropes, one ends of the two pull ropes are respectively wound around the top of a caulking groove, one ends of the pull ropes are respectively fixedly connected with the side walls of the two moving blocks, the movable end of the electric push rod is fixedly connected with an L-shaped plate, tooth grooves meshed with two semicircular gears are formed in one side of the L-shaped plate, one side of the U-shaped frame is fixedly connected with a retaining rod, and the retaining rod and the retaining plate are respectively located at two opposite sides of the rotating block.
The method is further characterized in that: the sliding grooves are formed in two ends of one side of the U-shaped frame, a sliding frame is slidably connected between the two sliding grooves, a clamping frame is fixedly connected to the top surface of the sliding frame, one end of the L-shaped plate is fixedly connected with a hook plate movably clamped inside the clamping frame, two ends of one side of the semicircular rod are fixedly connected with supporting rods, and the supporting rods are movably embedded into the sliding frame.
The method is further characterized in that: the width of the hook plate is smaller than the width of the inner part of the clamping frame.
The utility model has the beneficial effects that:
through starting the guillootine body and carrying out the material loading, make the cloth be located U type frame below, then start driving motor passes through belt pulley and drive belt and drives two screw rods synchronous rotation, make two screw rods drive two movable blocks and remove in opposite directions or move away from each other, when two movable blocks are removed in opposite directions, fold two semicircular rods of conflict, and two stay cords are lax at this moment, make electric putter automatic fall to the butt plate, then start electric putter and can drive two semicircular rods through tooth's socket and two semicircular gears and reciprocate, make two semicircular rods drive two clamp plates and reciprocate, press the cloth to weaving, then reset electric putter, make two fixture blocks card go into adjacent arc draw-in groove, and make branch embedding slip frame inside, then reset two movable blocks through driving motor, make two movable blocks drive adjacent semicircular rods separation through the fixture block, make two clamp plates translate again and press the cloth, improve the effect of pressing, and pull two stay cords pull up, and make the hook plate automatic card into the card frame, then start electric putter just can drive two semicircular rods through the slip frame and move two clamp plates, make two clamp plates break away from the operation of the machine, the cutter body is convenient for two to cut.
Drawings
The utility model is further described below with reference to the accompanying drawings.
FIG. 1 is a schematic view of the overall structure of the present utility model;
FIG. 2 is a schematic view of the positional relationship of the pressing mechanism, the driving mechanism and the lifting mechanism in the present utility model;
FIG. 3 is an exploded view of the structure of the pressing mechanism and the driving mechanism in the present utility model;
FIG. 4 is a schematic diagram of a moving block structure according to the present utility model;
FIG. 5 is a schematic view of the use of the lifting mechanism according to the present utility model.
In the figure: 100. a cutter body; 200. a U-shaped frame; 201. a caulking groove; 202. a chute; 210. a retaining plate; 220. a supporting rod; 300. a pressing mechanism; 310. a semicircular rod; 311. a guide groove; 312. a rebound spring; 320. a pressing plate; 330. a semicircular gear; 340. a support rod; 350. a clamping block; 400. a driving mechanism; 410. a moving block; 411. an arc-shaped clamping groove; 420. a screw; 430. a belt pulley; 431. a drive belt; 440. a driving motor; 500. a lifting mechanism; 510. a rotating block; 520. an electric push rod; 521. a collar; 522. a pull rope; 530. an L-shaped plate; 531. tooth slots; 532. a hook plate; 540. a sliding frame; 541. and (5) clamping the frame.
Detailed Description
The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
The utility model discloses a fixed-length cutting device for carbon fiber woven cloth, which is shown in fig. 1-5, and comprises a cutting machine body 100, wherein the top surface of the cutting machine body 100 is fixedly connected with a U-shaped frame 200, a pressing mechanism 300 is arranged in the U-shaped frame 200, a driving mechanism 400 is arranged in the U-shaped frame 200, and a lifting mechanism 500 is arranged in the driving mechanism 400 in a matched manner;
the pressing mechanism 300 comprises two semicircular rods 310, the top surface of the U-shaped frame 200 is provided with a caulking groove 201, the two semicircular rods 310 are all positioned in the caulking groove 201, the bottom ends of the two semicircular rods 310 are all fixedly connected with pressing plates 320, the top ends of the two semicircular rods 310 are all fixedly connected with semicircular gears 330, the two semicircular gears 330 are all meshed with the lifting mechanism 500, the driving mechanism 400 comprises two moving blocks 410, one side adjacent to the two moving blocks 410 is provided with arc clamping grooves 411, the outer cambered surfaces of the two semicircular rods 310 are provided with guide grooves 311, the inside of the two guide grooves 311 is provided with clamping blocks 350 in a sliding manner, the two clamping blocks 350 are respectively movably clamped in the inside of the two arc clamping grooves 411, the bottom surfaces of the two guide grooves 311 are all fixedly connected with rebound springs 312 with one ends fixedly connected with the bottom surfaces of the adjacent clamping blocks 350, two screw rods 420 are rotatably connected between the two ends of the caulking groove 201, the two moving blocks 410 are provided with threaded holes at the two ends, the two threaded hole inner side walls on the same moving block 410 are respectively screwed with the outer side walls of two screw rods 420, one end of each screw rod 420 penetrates through one end of the caulking groove 201 and is fixedly connected with a belt pulley 430, a transmission belt 431 is rotatably sleeved between the outer side walls of each belt pulley 430, one end of each U-shaped frame 200 is fixedly connected with a driving motor 440, a motor shaft of each driving motor 440 is fixedly connected with one end of each screw rod 420, cloth is pulled to the lower side of each U-shaped frame 200 by utilizing a cutter body 100, then two pressing plates 320 are pressed above a woven cloth by utilizing a lifting mechanism 500, then the driving motors 440 are started to drive the two screw rods 420 to synchronously rotate through the belt pulley 430 and the transmission belt 431, and two sections of threads on the same screw rod 420 from two ends to the middle are reversely rotated, so that when the two screw rods 420 synchronously rotate, the two moving blocks 410 can be driven to move oppositely or reversely, and two adjacent sides of the moving blocks 410 are arc-shaped surfaces, so that when the two moving blocks 410 are close to each other, the two semicircular rods 310 can be driven to fold, the two semicircular gears 330 are spliced into a complete gear, the two pressing plates 320 synchronously move along with the two semicircular rods 310, the woven cloth is pressed, the larger folds on the surface of the woven cloth are reduced, and the woven cloth can be pressed to be more flat.
The lifting mechanism 500 comprises a rotating block 510, the rotating block 510 is rotationally connected to one side of the U-shaped frame 200, one end of the rotating block 510 is fixedly connected with an electric push rod 520, the outer side wall of the electric push rod 520 is fixedly sleeved with a collar 521, the outer side wall of the collar 521 is fixedly connected with two pull ropes 522, one ends of the two pull ropes 522 are respectively and fixedly connected with the side walls of the two moving blocks 410 by bypassing the tops of the caulking grooves 201, one end of the two pull ropes 522 is respectively and fixedly connected with an L-shaped plate 530, one side of the L-shaped plate 530 is provided with a tooth groove 531 meshed with the two semicircular gears 330, one side of the U-shaped frame 200 is fixedly connected with a retaining plate 210, one side of the U-shaped frame 200 is fixedly connected with a retaining rod 220, the retaining rod 220 and the retaining plate 210 are respectively positioned at two opposite sides of the rotating block 510, when the two semicircular rods 310 are folded when the two moving blocks 410 move oppositely, the two pull ropes 522 are loose, the pull ropes 522 are thick steel ropes, the electric push rod 520 is not easy to clamp into the meshing position of the tooth grooves 531 and the semicircular gears 330, then the electric push rod 520 naturally rotates when not pulled by the pull rope 522, one side of the rotating block 510 is abutted by the supporting rod 220, the electric push rod 520 can fall to the supporting plate 210, the tooth grooves 531 clamp into the positions of the two semicircular gears 330, then the movable end of the electric push rod 520 is started to reciprocate, the L-shaped plate 530 drives the reciprocating rotating parts of the two semicircular gears 330 through the tooth grooves 531, the two pressing plates 320 rotate by taking the center shaft of the two semicircular rods 310 as the center, the pressing effect on the woven cloth is improved, the woven cloth is smoother, the sliding grooves 202 are formed at two ends of one side of the U-shaped frame 200, a sliding frame 540 is connected between the two sliding grooves 202, the top surface of the sliding frame 540 is fixedly connected with a clamping frame 541, one end of the L-shaped plate 530 is fixedly connected with a hook plate 532 movably clamped inside the clamping frame 541, two ends of one side of the two semicircular rods 310 are fixedly connected with supporting rods 340, the supporting rods 340 are movably embedded into the sliding frame 540, then the electric push rods 520 are controlled to reset, the two semicircular rods 310 are reset, the clamping blocks 350 on the two semicircular rods 310 are clamped into the arc clamping grooves 411 on the two moving blocks 410, the supporting rods 340 on the two semicircular rods 310 are embedded into the sliding frame 540, then the driving motor 440 is started to control the two moving blocks 410 to move away from each other, the two pressing plates 320 are enabled to move in a translational manner on the woven fabric again, the woven fabric is flattened, the two moving blocks 410 pull the adjacent pull ropes 522, the electric push rods 520 are pulled to rotate through the pull ropes 522, the rotating blocks 510 are abutted against the supporting rods 220, the hook plates 532 are clamped into the clamping frame 541, the width of the hook plates 532 is smaller than the width of the clamping frame 541, the hook plates 532 are clamped into the clamping frame 541, then the L-shaped plates 530 are started to drive the sliding frame 540 to move upwards, the sliding frame 540 is enabled to pull the two semicircular rods 310 to move upwards, the two pressing plates 320 are enabled to be separated from the woven fabric through the supporting rods 340, and the cutting device on the cutting machine body 100 is convenient to move.
Working principle: the cloth is pulled to the lower part of the U-shaped frame 200 by utilizing the cutter body 100, the electric push rod 520 is started to drive the L-shaped plate 530 and the sliding frame 540 to move downwards, so that the two pressing plates 320 are automatically pressed on the woven cloth due to dead weight, then the driving motor 440 is started to drive the two screws 420 to synchronously rotate through the belt pulley 430 and the transmission belt 431, the two moving blocks 410 move towards each other, the two moving blocks 410 synchronously abut against the two semicircular rods 310 to fold, the two semicircular gears 330 are spliced into a complete gear, the two pressing plates 320 synchronously move along with the two semicircular rods 310, the woven cloth is pressed, when the two moving blocks 410 move towards each other, the two pulling ropes 522 are loosened, then the electric push rod 520 naturally rotates when not pulled by the pulling ropes 522, the hook plate 532 is separated from the clamping frame 541, one side of the rotating block 510 is abutted by the supporting rod 220, the electric push rod 520 can fall to the supporting plate 210, the position of the 531 is clamped into the position of the two semicircular gears 330, then the movable end of the electric push rod 520 is started to reciprocate the tooth socket, the L-shaped plate 530 drives the two semicircular rods 330 to rotate towards the center of the two semicircular rods 320 through the tooth socket 531, and the two semicircular rods 320 are driven to rotate towards the center of the two semicircular plates 320;
then, the electric push rod 520 is controlled to reset, so that the two semicircular rods 310 are reset, the clamping blocks 350 on the two semicircular rods 310 are clamped into the arc clamping slots 411 on the two moving blocks 410, the supporting rods 340 on the two semicircular rods 310 are embedded into the sliding frame 540, then the driving motor 440 is started to control the two moving blocks 410 to move back to back, so that the two pressing plates 320 are moved in a translation mode on the woven fabric again, the woven fabric is flattened, the two moving blocks 410 pull the adjacent pull ropes 522, the electric push rod 520 is pulled to rotate through the pull ropes 522, the rotating blocks 510 are abutted against the rods 220, the hook plates 532 are clamped into the clamping frames 541, the electric push rod 520 is started to drive the L-shaped plates 530 to pull the sliding frame 540 to move upwards, the sliding frame 540 pulls the two semicircular rods 310 to move upwards, and the two pressing plates 320 are separated from the woven fabric, so that the cutting device on the cutting machine body 100 is convenient to move, and the cutting machine body 100 is convenient to feed.
In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
The foregoing is merely illustrative and explanatory of the utility model, as various modifications and additions may be made to the particular embodiments described, or in a similar manner, by those skilled in the art, without departing from the scope of the utility model or exceeding the scope of the utility model as defined in the claims.
Claims (4)
1. The fixed-length cutting device for the carbon fiber woven cloth comprises a cutting machine body (100), and is characterized in that a U-shaped frame (200) is fixedly connected to the top surface of the cutting machine body (100), a pressing mechanism (300) is arranged inside the U-shaped frame (200), a driving mechanism (400) is arranged inside the U-shaped frame (200), and a lifting mechanism (500) is arranged in the driving mechanism (400) in a matched mode;
the pressing mechanism (300) comprises two semicircular rods (310), the top surface of the U-shaped frame (200) is provided with a caulking groove (201), the two semicircular rods (310) are all located inside the caulking groove (201), the bottom ends of the two semicircular rods (310) are all fixedly connected with pressing plates (320), the top ends of the two semicircular rods (310) are all fixedly connected with semicircular gears (330), and the two semicircular gears (330) are all meshed with the lifting mechanism (500);
the driving mechanism (400) comprises two moving blocks (410), wherein arc clamping grooves (411) are formed in one adjacent side of each of the two moving blocks (410), guide grooves (311) are formed in the outer cambered surface of each of the semicircular rods (310), clamping blocks (350) are slidably connected in the two guide grooves (311), the clamping blocks (350) are movably clamped in the two arc clamping grooves (411) respectively, rebound springs (312) with one ends fixedly connected with the bottom surfaces of the adjacent clamping blocks (350) are fixedly connected to the inner bottom surfaces of the two guide grooves (311), two threaded rods (420) are rotatably connected between the two ends of each of the embedded grooves (201), threaded holes are formed in the two ends of each of the two moving blocks (410), the inner side walls of the two threaded holes in the same moving block (410) are respectively screwed with the outer side walls of the two threaded rods (420), one ends of each of the two threaded rods (420) penetrate through one end of the embedded grooves (201) and are fixedly connected with belt pulleys (430), a transmission belt (431) is rotatably sleeved between the outer side walls of the two belt pulleys (430), a motor shaft (200) is fixedly connected with one end of each of the motor shaft (440), and one end of the motor shaft (440) is fixedly connected with one end of each of the motor shaft (440);
lifting mechanism (500) are including changeing piece (510), and changeing piece (510) swivelling joint in U type frame (200) one side, changeing piece (510) one end fixedly connected with electric putter (520), and electric putter (520) lateral wall fixed sleeve has lantern ring (521), lantern ring (521) lateral wall fixedly connected with two stay cords (522), and two stay cord (522) one end is all walked around caulking groove (201) top, two stay cord (522) one end respectively with two movable block (410) lateral wall fixed connection, tooth's socket (531) with two semicircular gear (330) engaged with are seted up to L type board (530) active end fixedly connected with L type board (530), U type frame (200) one side fixedly connected with butt plate (210), and U type frame (200) one side fixedly connected with butt rod (220), butt rod (220) and butt plate (210) are located changeing piece (510) opposite both sides department respectively.
2. The carbon fiber woven cloth fixed length cutting device according to claim 1, wherein two adjacent sides of the moving block (410) are arc-shaped surfaces.
3. The carbon fiber woven cloth fixed length cutting device according to claim 1, wherein sliding grooves (202) are formed in two ends of one side of the U-shaped frame (200), a sliding frame (540) is slidably connected between the two sliding grooves (202), a clamping frame (541) is fixedly connected to the top surface of the sliding frame (540), a hook plate (532) movably clamped inside the clamping frame (541) is fixedly connected to one end of the L-shaped plate (530), supporting rods (340) are fixedly connected to two ends of one side of the semicircular rod (310), and the supporting rods (340) are movably embedded inside the sliding frame (540).
4. A carbon fiber woven cloth fixed length cutting device according to claim 3, wherein the width of the hook plate (532) is smaller than the inner width of the clamping frame (541).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202321248418.5U CN220224730U (en) | 2023-05-23 | 2023-05-23 | Fixed-length cutting device for carbon fiber woven cloth |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202321248418.5U CN220224730U (en) | 2023-05-23 | 2023-05-23 | Fixed-length cutting device for carbon fiber woven cloth |
Publications (1)
Publication Number | Publication Date |
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CN220224730U true CN220224730U (en) | 2023-12-22 |
Family
ID=89196576
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202321248418.5U Active CN220224730U (en) | 2023-05-23 | 2023-05-23 | Fixed-length cutting device for carbon fiber woven cloth |
Country Status (1)
Country | Link |
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CN (1) | CN220224730U (en) |
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2023
- 2023-05-23 CN CN202321248418.5U patent/CN220224730U/en active Active
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