CN221090032U - Large-sized carbon fiber simple forming device - Google Patents
Large-sized carbon fiber simple forming device Download PDFInfo
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- CN221090032U CN221090032U CN202323001971.1U CN202323001971U CN221090032U CN 221090032 U CN221090032 U CN 221090032U CN 202323001971 U CN202323001971 U CN 202323001971U CN 221090032 U CN221090032 U CN 221090032U
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- 229920000049 Carbon (fiber) Polymers 0.000 title claims abstract description 28
- 239000004917 carbon fiber Substances 0.000 title claims abstract description 28
- VNWKTOKETHGBQD-UHFFFAOYSA-N methane Chemical compound C VNWKTOKETHGBQD-UHFFFAOYSA-N 0.000 title claims abstract description 27
- 238000001125 extrusion Methods 0.000 claims abstract description 67
- 238000000465 moulding Methods 0.000 claims description 5
- 239000002994 raw material Substances 0.000 abstract description 7
- 238000001179 sorption measurement Methods 0.000 abstract 1
- OKTJSMMVPCPJKN-UHFFFAOYSA-N Carbon Chemical compound [C] OKTJSMMVPCPJKN-UHFFFAOYSA-N 0.000 description 4
- 229910052799 carbon Inorganic materials 0.000 description 4
- 239000002131 composite material Substances 0.000 description 3
- 238000000034 method Methods 0.000 description 3
- 229920001169 thermoplastic Polymers 0.000 description 3
- 239000004416 thermosoftening plastic Substances 0.000 description 3
- 238000009941 weaving Methods 0.000 description 3
- 238000010521 absorption reaction Methods 0.000 description 2
- 239000004744 fabric Substances 0.000 description 2
- 238000010008 shearing Methods 0.000 description 2
- VYZAMTAEIAYCRO-UHFFFAOYSA-N Chromium Chemical compound [Cr] VYZAMTAEIAYCRO-UHFFFAOYSA-N 0.000 description 1
- 238000002679 ablation Methods 0.000 description 1
- 230000003044 adaptive effect Effects 0.000 description 1
- 230000004075 alteration Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000009954 braiding Methods 0.000 description 1
- 229910052804 chromium Inorganic materials 0.000 description 1
- 239000011651 chromium Substances 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 239000000835 fiber Substances 0.000 description 1
- 238000010030 laminating Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000007747 plating Methods 0.000 description 1
- 238000002360 preparation method Methods 0.000 description 1
- 230000001105 regulatory effect Effects 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
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- Extrusion Moulding Of Plastics Or The Like (AREA)
Abstract
The utility model discloses a large-scale carbon fiber simple forming device, which comprises: the conveying extrusion device comprises a concave conveying table, a limiting die and a conveying extrusion bracket, wherein the conveying extrusion bracket is arranged on the concave conveying table and the limiting die, and a conveying structure and an extrusion forming structure are arranged on the conveying extrusion bracket; the utility model relates to the technical field of carbon fiber forming, and discloses a negative pressure adsorption conveying device for carbon fiber raw materials on a concave conveying table through a conveying structure.
Description
Technical Field
The utility model relates to the technical field of carbon fiber molding, in particular to a large-sized carbon fiber simple molding device.
Background
The carbon/carbon composite material is a structural material developed in the last twenty years, the structural performance of a member made of the three-dimensional fabric through later curing treatment is excellent, the mechanical properties of the composite material in multiple aspects are obviously improved, and the carbon/carbon composite material is mainly used in the new technical fields of aviation, aerospace, automobiles, medical treatment and the like at present. Three-dimensional fabrics have long been manufactured by artificial braiding, which has low molding efficiency, high labor intensity, and poor consistency of products, and mechanical automation has been widely used with the progress of science and technology. The fiber reinforced structure of the three-dimensional integrally woven preform is of a net-shaped structure in space, has good isotropy, shearing and layering resistance and ablation resistance, and has excellent designability. However, the three-dimensional integrally woven prefabricated body needs good isotropy, in order to ensure the continuity of the weaving process, auxiliary equipment is required to be added outside a main weaving mechanism to assist the continuous operation of the whole weaving process, the traditional thermoplastic prepreg tape laminated plate mainly depends on manual shearing for a specific length, and then a skilled worker uses high-temperature high-speed air flow blown out by a hot air gun to roll and form by using a chromium plating smooth roll according to a certain laminating mode, so that the worker needs to repeatedly laminate for dozens of times to finish the prefabricated laminated plate. In addition, the traditional sample preparation mode of the thermoplastic prepreg laminated plate has the defects that the porosity between layers is large when the thermoplastic prepreg laminated plate is laid manually, air cannot be discharged timely, the porosity of the laminated plate is high after the laminated plate enters a vacuum hot press for pressing in the later period, and the mechanical property is poor.
Disclosure of utility model
In order to achieve the above purpose, the utility model is realized by the following technical scheme: large-scale carbon fiber simple forming device includes: the conveying extrusion device comprises a concave conveying table, a limiting die and a conveying extrusion bracket, wherein the conveying extrusion bracket is arranged on the concave conveying table and the limiting die, and a conveying structure and an extrusion forming structure are arranged on the conveying extrusion bracket;
The carrying structure comprises: the device comprises a pair of carrying screw rod modules, a carrying moving plate, two pairs of carrying electric push rods, a concave rotary limiting block, a convex rotary limiting block, a rotary driving machine, a concave angle limiting block, a pair of angle arc slide ways, a pair of angle arc slide blocks, an angle driving machine, a pair of angle driving shafts, an angle limiting block, two pairs of concave sleeve blocks, two pairs of concave telescopic blocks, a plurality of telescopic limiting shafts, a plurality of telescopic sleeve springs, a tooth-mounted split pipe, two pairs of telescopic sleeves and an air pump;
The pair of carrying screw rod modules are horizontally and parallelly arranged on the carrying extrusion support, the carrying moving plate is arranged on the moving ends of the pair of carrying screw rod modules, the two pairs of carrying electric push rods are arranged on the carrying moving plate in pairs and in parallel, the concave rotary limiting blocks are arranged on the pushing ends of the two pairs of carrying electric push rods, the convex rotary limiting blocks are movably inserted and arranged on the inner sides of the concave rotary limiting blocks through bearings, the rotary driving machine is arranged on the inner sides of the concave rotary limiting blocks, the driving end of the rotary driving machine is connected to the convex rotary limiting blocks, the concave angle limiting blocks are arranged on the convex rotary limiting blocks, the pair of angle arc sliding ways are respectively and relatively and parallelly arranged on the concave angle limiting blocks, the pair of angle arc sliding blocks are respectively arranged on the two sides of the angle limiting blocks, the pair of angle circular arc sliding blocks are movably inserted into the inner sides of the pair of angle circular arc sliding ways respectively, the two pairs of concave sleeve blocks are inserted into the angle limiting blocks in pairs in parallel, the two pairs of concave telescopic blocks are movably inserted into the inner sides of the two pairs of concave sleeve blocks respectively, the plurality of telescopic limiting shafts are uniformly inserted into the two pairs of concave sleeve blocks respectively, the plurality of telescopic limiting shafts are movably inserted into the two pairs of concave telescopic blocks respectively, the plurality of telescopic sleeve springs are sleeved onto the plurality of telescopic limiting shafts respectively, the two pairs of telescopic sleeves are inserted into the two pairs of concave telescopic blocks respectively, the tooth-mounted shunt tubes are inserted into the two pairs of concave sleeve blocks respectively, the tooth-mounted shunt tubes are movably inserted into the inner sides of the two pairs of telescopic sleeves, the air pump is connected to the tooth-mounted shunt tube;
In the above description, the parts are horizontally transported by the concave transportation table, the moving plate on the moving end is driven by the pair of moving screw modules, the two pairs of moving electric push rods on the moving plate are driven by the moving plate to horizontally move, the two pairs of moving electric push rod pushing ends stretch and retract to drive the concave rotating limiting block on the pushing end to vertically lift, the convex rotating limiting block on the driving end of the rotating driving machine is driven by the operation of the rotating driving machine on the inner side of the concave rotating limiting block, so that the convex rotating limiting block horizontally rotates on the inner side of the concave rotating limiting block, the concave angle limiting block on the convex rotating limiting block is driven by the convex rotating limiting block, the angle driving shaft on the driving end is driven by the angle driving machine, the angle limiting block on the angle driving shaft is driven by the pair of angle driving shafts to rotate along the angle driving shaft, the angle of the angle limiting block is changed by respectively rotating a pair of angle arc sliding blocks on the angle limiting block along the inner sides of a pair of angle arc sliding ways, the angle of the angle limiting block is changed, two pairs of inner side concave type sleeve blocks and inner side concave type telescopic blocks are changed, 360-degree rotation adjustment on the horizontal direction and 180-degree rotation adjustment on the vertical direction of the concave type telescopic blocks are realized according to different requirements, simultaneously, carbon fiber raw materials are extruded through the concave type telescopic blocks, negative pressure suction is carried out on the inner sides of tooth-mounted shunt tubes through a suction pump, air pressure on the inner sides of the two pairs of concave type telescopic blocks is regulated into negative pressure, the carbon fiber raw materials are extruded through the concave type telescopic blocks, the concave type telescopic blocks are telescopic along a plurality of telescopic limiting shafts on the inner sides of the concave type sleeve blocks, and simultaneously, telescopic sleeve springs on the plurality of telescopic limiting shafts are extruded and contracted, so that different die shapes are changed are achieved, and adjusting the position of the concave telescopic block at the inner side of the concave sleeving block.
Preferably, the extrusion structure comprises: the device comprises a pair of concave horizontal slide ways, two pairs of convex horizontal slide blocks, a pair of horizontal threaded rods, two pairs of horizontal threaded pipes, a horizontal gear set, a horizontal driving machine, a horizontal extrusion limiting plate, a plurality of lifting extrusion hydraulic push rods and an extrusion module;
The pair of concave horizontal sliding ways are relatively and parallelly arranged on the side wall of the carrying extrusion bracket, the two pairs of convex horizontal sliding blocks are respectively arranged on two sides of the horizontal extrusion limiting plate, the two pairs of convex horizontal sliding blocks are respectively movably inserted on the inner sides of the two pairs of concave horizontal sliding ways, one pair of horizontal threaded rods are respectively inserted on the pair of concave horizontal sliding ways, the two pairs of horizontal threaded pipes are respectively inserted on the two pairs of convex horizontal sliding blocks, the two pairs of horizontal threaded pipes are respectively sleeved on the pair of horizontal threaded rods, the horizontal gear set is arranged on the pair of horizontal threaded rods, the driving end of the horizontal driving machine is connected to the horizontal gear set, a plurality of lifting extrusion hydraulic push rods are uniformly arranged on the horizontal extrusion limiting plate, and the extrusion modules are arranged on the pushing ends of a plurality of lifting extrusion hydraulic push rods;
In the above description, the horizontal driving machine is used to drive the horizontal gear box on the driving end of the horizontal driving machine, the horizontal gear box is used to drive the pair of horizontal threaded rods on the inner side of the horizontal gear box, the pair of horizontal threaded rods are used to drive the horizontal threaded pipes on the horizontal gear box, the pair of horizontal threaded pipes are used to drive the horizontal extrusion limiting plates on the horizontal threaded pipes, the horizontal extrusion limiting plates are used to drive the pair of convex horizontal sliding blocks on the horizontal extrusion limiting plates, the pair of convex horizontal sliding blocks are used to respectively move horizontally along the inner sides of the pair of concave horizontal sliding ways, the horizontal extrusion limiting plates are used to drive the plurality of lifting extrusion hydraulic push rods on the horizontal extrusion limiting plates, and the plurality of lifting extrusion hydraulic push rods are used to push the extrusion modules on the pushing ends, so as to extrude and fix the plurality of carbon fibers on the inner sides of the die.
Preferably, an infrared scanner is arranged on the concave transportation table.
Preferably, the tooth-mounted shunt tube is provided with three valves.
Preferably, two pairs of concave telescopic blocks are respectively provided with a rubber ring.
Preferably, the carrying extrusion bracket is provided with a plurality of scanning cameras.
Advantageous effects
The utility model provides a large-scale carbon fiber simple forming device. Possess following beneficial effect, this large-scale carbon fiber simple body forming device carries out negative pressure absorption transport through carrying the carbon fiber raw materials of structure on to concave transport table, through carrying out negative pressure absorption with carbon fiber, through according to the shape difference of mould, carries out the angular adjustment on the vertical direction and 360 degrees adjustment in the horizontal direction with the range of carbon fiber with the mounted position to reach and arrange the automatic of carbon fiber raw materials.
Drawings
Fig. 1 is a schematic structural view of a large-sized carbon fiber simple molding device according to the present utility model.
Fig. 2 is a schematic structural view of a large-sized carbon fiber simple forming device according to the present utility model.
Fig. 3 is a schematic structural view of the large-sized carbon fiber simple forming device according to the present utility model.
In the figure: 1. a concave transport table; 2. limiting the mould; 3. carrying and extruding the bracket; 4. carrying a screw rod module; 5. carrying a moving plate; 6. carrying an electric push rod; 7. a concave rotary limiting block; 8. a convex rotary limiting block; 9. a rotary driving machine; 10. a concave angle limiting block; 11. an angular arc slideway; 12. an angle arc slide block; 13. an angle driving machine; 14. an angular drive shaft; 15. an angle limiting block; 16. a concave sleeving block; 17. a concave telescopic block; 18. a telescopic limit shaft; 19. a telescopic sleeve spring; 20. tooth-mounted shunt tubes; 21. a telescoping tube; 22. an air extracting pump; 23. concave horizontal slideway; 24. a convex horizontal slide block; 25. a horizontal threaded rod; 26. a horizontal threaded pipe; 28. a horizontal gear set; 29. a horizontal driving machine.
Detailed Description
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.
All electric parts and the adaptive power supply are connected through wires by the person skilled in the art, and a proper controller and encoder should be selected according to actual conditions so as to meet control requirements, specific connection and control sequence, and the electric connection is completed by referring to the following working principles in the working sequence among the electric parts, and the detailed connection means are known in the art, and mainly introduce the working principles and processes as follows, and do not describe the electric control.
Examples
The present invention will be described in detail with reference to the accompanying drawings, as shown in fig. 1-3, the carrying extrusion bracket 3 is mounted on the concave transportation table 1 and the limiting mold 2, and the carrying extrusion bracket 3 is mounted with a carrying structure and an extrusion molding structure; the carrying structure comprises: the device comprises a pair of carrying screw rod modules 4, carrying moving plates 5, two pairs of carrying electric push rods 6, a concave rotary limiting block 7, a convex rotary limiting block 8, a rotary driver 9, a concave angle limiting block 10, a pair of angle arc slide ways 11, a pair of angle arc slide blocks 12, an angle driver 13, a pair of angle driving shafts 14, an angle limiting block 15, two pairs of concave sleeving blocks 16, two pairs of concave telescopic blocks 17, a plurality of telescopic limiting shafts 18, a plurality of telescopic sleeving springs 19, a tooth-mounted shunt tube 20, two pairs of telescopic sleeves 21 and an air pump 22; the pair of carrying screw rod modules 4 are horizontally and parallelly arranged on the carrying extrusion bracket 3, the carrying movable plate 5 is arranged on the movable ends of the pair of carrying screw rod modules 4, the two pairs of carrying electric push rods 6 are arranged on the carrying movable plate 5 in pairs and in parallel, the concave-type rotating limiting block 7 is arranged on the pushing ends of the two pairs of carrying electric push rods 6, the convex-type rotating limiting block 8 is movably inserted and arranged on the inner side of the concave-type rotating limiting block 7 through a bearing, the rotating driving machine 9 is arranged on the inner side of the concave-type rotating limiting block 7, the driving end of the rotating driving machine 9 is connected on the convex-type rotating limiting block 8, the concave-type angle limiting block 10 is arranged on the convex-type rotating limiting block 8, the pair of angle circular arc slide ways 11 are respectively and relatively arranged on the concave angle limiting block 10 in parallel, the pair of angle circular arc slide blocks 12 are respectively arranged on two sides of the angle limiting block 15, the pair of angle circular arc slide blocks 12 are respectively and movably inserted on the inner sides of the pair of angle circular arc slide ways 11, the two pairs of concave telescopic blocks 16 are respectively and movably inserted on the angle limiting block 15, the two pairs of concave telescopic blocks 17 are respectively and movably inserted on the inner sides of the two pairs of concave telescopic blocks 16, the plurality of telescopic limiting shafts 18 are respectively and uniformly inserted on the two pairs of concave telescopic blocks 16, the plurality of telescopic limiting shafts 18 are respectively and movably inserted on the two pairs of concave telescopic blocks 17, the telescopic sleeve springs 19 are respectively sleeved on the telescopic limiting shafts 18, the two pairs of telescopic sleeves 21 are respectively inserted on the two pairs of concave telescopic blocks 17, the tooth-mounted shunt tubes 20 are inserted on the two pairs of concave sleeve blocks 16, the tooth-mounted shunt tubes 20 are movably inserted on the inner sides of the two pairs of telescopic sleeves 21, and the air pump 22 is connected to the tooth-mounted shunt tubes 20; the extrusion structure comprises: a pair of concave horizontal slide ways 23, two pairs of convex horizontal slide blocks 24, a pair of horizontal threaded rods 25, two pairs of horizontal threaded pipes 26, a horizontal gear set 28, a horizontal driving machine 29, a horizontal extrusion limiting plate, a plurality of lifting extrusion hydraulic push rods and extrusion modules; the pair of concave horizontal sliding ways 23 are relatively and parallelly arranged on the side wall of the carrying extrusion bracket 3, the two pairs of convex horizontal sliding blocks 24 are respectively arranged on the two sides of the horizontal extrusion limiting plate, the two pairs of convex horizontal sliding blocks 24 are respectively movably inserted into the inner sides of the two pairs of concave horizontal sliding ways 23, the pair of horizontal threaded rods 25 are respectively inserted into the pair of concave horizontal sliding ways 23, the two pairs of horizontal threaded pipes 26 are respectively inserted into the two pairs of convex horizontal sliding blocks 24, the two pairs of horizontal threaded pipes 26 are respectively sleeved on the pair of horizontal threaded rods 25, the horizontal gear set 28 is arranged on the pair of horizontal threaded rods 25, the driving end of the horizontal driving machine 29 is connected to the horizontal gear set 28, a plurality of lifting extrusion hydraulic pushing rods are uniformly arranged on the horizontal extrusion limiting plate, and the extrusion modules are arranged on the pushing ends of a plurality of lifting extrusion hydraulic pushing rods; an infrared scanner is arranged on the concave transportation table 1; three valves are arranged on the tooth-mounted shunt tube 20; the two pairs of concave telescopic blocks 17 are respectively provided with a rubber ring; a plurality of scanning cameras are arranged on the carrying extrusion support 3.
According to the attached figures 1-3, the parts are horizontally transported through the concave transportation table 1, the moving screw module 4 is operated to drive the moving plate 5 on the moving end, the moving plate 5 is used to drive the two pairs of moving electric push rods 6 on the moving plate to horizontally move, the pushing ends of the two pairs of moving electric push rods 6 stretch, the concave rotary limiting block 7 on the pushing end is driven to vertically lift, the rotary driving machine 9 on the inner side of the concave rotary limiting block 7 is operated to drive the rotary driving machine 9 to drive the convex rotary limiting block 8 on the driving end, the convex rotary limiting block 8 horizontally rotates on the inner side of the concave rotary limiting block 7, the concave angle limiting block 10 on the convex rotary limiting block 8 is driven to drive the angle driving machine 13 to drive the angle driving shaft 14 on the driving end, the angle limiting block 15 on the angle driving shaft 14 is driven to rotate along the angle driving shaft 14, the angle of the angle limiting block 15 is changed by respectively rotating a pair of angle circular arc sliding blocks 12 on the angle limiting block 15 along the inner sides of a pair of angle circular arc sliding ways 11, the angle of the angle limiting block 15 is changed, two pairs of inner concave sleeving blocks 16 and inner concave telescopic blocks 17 thereof are changed, 360-degree rotation adjustment of the concave telescopic blocks 17 in the horizontal direction and 180-degree rotation adjustment of the vertical direction are achieved according to different requirements, simultaneously carbon fiber raw materials are extruded through the concave telescopic blocks 17, negative pressure air suction is carried out on the inner sides of tooth-mounted shunt tubes 20 through an air suction pump 22, air pressure on the inner sides of the two pairs of concave telescopic blocks 17 is adjusted to be negative pressure, the carbon fiber raw materials are extruded through the concave telescopic blocks 17, the concave telescopic blocks 17 stretch and retract along a plurality of telescopic limiting shafts 18 on the inner sides of the concave sleeving blocks 16, simultaneously, the telescopic sleeve springs 19 on the telescopic limiting shafts 18 are extruded and contracted, so that different die shapes are changed, and the positions of the concave telescopic blocks 17 on the inner sides of the concave sleeve blocks 16 are adjusted; the horizontal driving machine 29 is used for running, a horizontal gear box on the driving end of the horizontal driving machine 29 is driven, a pair of horizontal threaded rods 25 on the inner side of the horizontal gear box is driven by the horizontal gear box, a pair of horizontal threaded pipes 26 on the horizontal threaded rods are respectively driven by the pair of rotating horizontal threaded rods 25, a pair of horizontal extrusion limiting plates on the horizontal threaded pipes are driven by the pair of horizontal threaded pipes 26, the horizontal extrusion limiting plates drive a pair of convex horizontal sliding blocks 24 on the horizontal extrusion limiting plates, the horizontal sliding blocks 24 respectively move horizontally along the inner sides of the pair of concave horizontal sliding ways 23, a plurality of lifting extrusion hydraulic push rods on the horizontal sliding blocks are driven by the horizontal extrusion limiting plates, and a plurality of extrusion modules on the pushing ends of the lifting extrusion hydraulic push rods are extruded and fixed on the inner sides of the die.
Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. Large-scale carbon fiber simple forming device includes: the device is characterized in that the carrying extrusion bracket is arranged on the concave conveying table and the limiting die, and a carrying structure and an extrusion forming structure are arranged on the carrying extrusion bracket;
The carrying structure comprises: the device comprises a pair of carrying screw rod modules, a carrying moving plate, two pairs of carrying electric push rods, a concave rotary limiting block, a convex rotary limiting block, a rotary driving machine, a concave angle limiting block, a pair of angle arc slide ways, a pair of angle arc slide blocks, an angle driving machine, a pair of angle driving shafts, an angle limiting block, two pairs of concave sleeve blocks, two pairs of concave telescopic blocks, a plurality of telescopic limiting shafts, a plurality of telescopic sleeve springs, a tooth-mounted split pipe, two pairs of telescopic sleeves and an air pump;
The pair of carrying screw rod modules are horizontally and parallelly arranged on the carrying extrusion support, the carrying moving plate is arranged on the moving ends of the pair of carrying screw rod modules, the two pairs of carrying electric push rods are arranged on the carrying moving plate in pairs and in parallel, the concave rotary limiting blocks are arranged on the pushing ends of the two pairs of carrying electric push rods, the convex rotary limiting blocks are movably inserted and arranged on the inner sides of the concave rotary limiting blocks through bearings, the rotary driving machine is arranged on the inner sides of the concave rotary limiting blocks, the driving end of the rotary driving machine is connected to the convex rotary limiting blocks, the concave angle limiting blocks are arranged on the convex rotary limiting blocks, the pair of angle arc sliding ways are respectively and relatively and parallelly arranged on the concave angle limiting blocks, the pair of angle arc sliding blocks are respectively arranged on the two sides of the angle limiting blocks, the pair of angle circular arc sliding blocks are movably inserted into the inner sides of the pair of angle circular arc sliding ways respectively, the two pairs of concave sleeve blocks are inserted into the angle limiting blocks in pairs in parallel, the two pairs of concave telescopic blocks are movably inserted into the inner sides of the two pairs of concave sleeve blocks respectively, the plurality of telescopic limiting shafts are uniformly inserted into the two pairs of concave sleeve blocks respectively, the plurality of telescopic limiting shafts are movably inserted into the two pairs of concave telescopic blocks respectively, the plurality of telescopic sleeve springs are sleeved onto the plurality of telescopic limiting shafts respectively, the two pairs of telescopic sleeves are inserted into the two pairs of concave telescopic blocks respectively, the tooth-mounted shunt tubes are inserted into the two pairs of concave sleeve blocks respectively, the tooth-mounted shunt tubes are movably inserted into the inner sides of the two pairs of telescopic sleeves, the air pump is connected to the tooth-mounted shunt tube.
2. The large-sized carbon fiber simple molding apparatus according to claim 1, wherein the extrusion molding structure comprises: the device comprises a pair of concave horizontal slide ways, two pairs of convex horizontal slide blocks, a pair of horizontal threaded rods, two pairs of horizontal threaded pipes, a horizontal gear set, a horizontal driving machine, a horizontal extrusion limiting plate, a plurality of lifting extrusion hydraulic push rods and an extrusion module;
The pair of concave horizontal sliding ways are relatively and parallelly arranged on the side wall of the carrying extrusion support, the two pairs of convex horizontal sliding blocks are respectively arranged on two sides of the horizontal extrusion limiting plate, the two pairs of convex horizontal sliding blocks are respectively movably inserted on the inner sides of the two pairs of concave horizontal sliding ways, the one pair of horizontal threaded rods are respectively inserted on the one pair of concave horizontal sliding ways, the two pairs of horizontal threaded pipes are respectively inserted on the two pairs of convex horizontal sliding blocks, the two pairs of horizontal threaded pipes are respectively sleeved on the one pair of horizontal threaded rods, the horizontal gear set is arranged on the one pair of horizontal threaded rods, the driving end of the horizontal driving machine is connected to the horizontal gear set, a plurality of lifting extrusion hydraulic push rods are uniformly arranged on the horizontal extrusion limiting plate, and the extrusion modules are arranged on the pushing ends of the lifting extrusion hydraulic push rods.
3. The large-sized carbon fiber simple forming device according to claim 2, wherein an infrared scanner is arranged on the concave-shaped conveying table.
4. A large carbon fiber profile modeling apparatus as defined in claim 3, wherein the tooth-loaded shunt is provided with three valves.
5. The large-sized carbon fiber simple forming device according to claim 4, wherein two pairs of concave telescopic blocks are respectively provided with a rubber ring.
6. The large-scale carbon fiber simple forming device according to claim 5, wherein a plurality of scanning cameras are arranged on the carrying extrusion bracket.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202323001971.1U CN221090032U (en) | 2023-11-07 | 2023-11-07 | Large-sized carbon fiber simple forming device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202323001971.1U CN221090032U (en) | 2023-11-07 | 2023-11-07 | Large-sized carbon fiber simple forming device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN221090032U true CN221090032U (en) | 2024-06-07 |
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ID=91306341
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202323001971.1U Active CN221090032U (en) | 2023-11-07 | 2023-11-07 | Large-sized carbon fiber simple forming device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN221090032U (en) |
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2023
- 2023-11-07 CN CN202323001971.1U patent/CN221090032U/en active Active
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