CN115319975B - Can convey carbon fiber product solidification equipment in succession - Google Patents

Abstract

The invention discloses a curing device capable of continuously conveying carbon fiber products, and relates to the technical field of curing of carbon fiber products. This kind of can convey carbon fiber product solidification equipment in succession, including carbon fiber solidification subassembly and bottom plate, carbon fiber solidification subassembly includes the sealing bag, the inside of sealing bag is provided with the carbon fiber, install exhaust tube and inlet pipe on the sealing bag, be provided with the delivery assembly who is used for carbon fiber solidification subassembly to carry on the bottom plate, be fixed with two L type faggings on the bottom plate. This kind of can convey carbon fiber product solidification equipment in succession at the in-process to carbon fiber solidification subassembly solidification treatment, can form the detection discernment to carbon fiber solidification subassembly internal seal nature, is convenient for when carbon fiber solidification subassembly, and the leakproofness of quick discernment carbon fiber solidification subassembly avoids annotating the solidification effect after every carbon fiber solidification subassembly solidification of liquid in-process part shaping liquid outflow, further assurance.

Description

Can convey carbon fiber product solidification equipment in succession

Technical Field

The invention relates to the technical field of carbon fiber product curing, in particular to a curing device capable of continuously conveying carbon fiber products.

Background

Carbon fibers are carbon fibers having a carbon content of about 95% and graphite fibers having a carbon content of about 99%. The carbon fiber is formed by sintering viscose, acrylic fiber, aramid fiber, polyimide and other fibers at high temperature.

The history of manufacturing carbon fiber by human beings can be traced back to 1880 that natural plant fibers such as cotton, flax, bamboo and the like are carbonized to obtain the carbon fiber for screening filament lamps. However, the carbon fiber obtained first had high porosity, was highly brittle and easily oxidized, and in 1881, it was found that the performance of the carbon fiber could be improved by coating the surface of the carbon fiber with a carbon film. In 1909, carbon fibers were heated to above 2300 ℃ in an inert gas. The earliest graphite fibers were obtained. Tungsten filament appeared in 1910 and was successfully used for filament of incandescent lamp to make research on carbon fiber stop, in the 50 th century, united states combined carbide company reported research results of preparing carbon fiber from rayon by controlled pyrolysis, 1959, advanced by japan industrial testing osaka for industrial purposes, polyacrylonitrile was the first time to prepare carbon fiber, and patent was filed in 1962. In 1969, carbon Japan achieved T-industrial production based on the research results of Zhang Zhao Men. In 1963, professor datura of university of shimada in japan made carbon fiber from petroleum pitch 5 cyan, and in 1970, commercial production was achieved by wu-feather chemical company. At that time, both the strength and modulus of carbon fibers made from rayon or polyacrylonitrile or pitch are low. In 1964, two leaps in the carbon fiber manufacturing technology are made, so that the performance of the carbon fiber is greatly improved.

In-process of carbon fiber product solidification, pass through the sealing bag parcel with the carbon fiber and pour into the fixed shaping liquid of carbon fiber into to the inside of sealing bag, accomplish the fixed to the carbon fiber product, but annotate the fixed in-process of liquid, can't detect the leakproofness of the sealing bag of parcel carbon fiber, easily cause to annotate the liquid in-process part shaping liquid and flow out, and the sealing bag leakproofness is not enough easily to cause the carbon fiber solidification after annotating the liquid incomplete, has reduced the effect of carbon fiber product solidification.

Disclosure of Invention

The invention aims to provide a curing device capable of continuously conveying carbon fiber products so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a can convey carbon fiber product solidification equipment in succession, includes carbon fiber solidification subassembly and bottom plate, carbon fiber solidification subassembly includes the sealing bag, the inside of sealing bag is provided with the carbon fiber, install exhaust tube and inlet pipe on the sealing bag, be provided with the delivery assembly who is used for carbon fiber solidification subassembly to carry on the bottom plate, be fixed with two L type faggings, two on the bottom plate be provided with the locating component who is used for carbon fiber solidification subassembly transportation in-process location in the L type fagging, be fixed with the backup pad on the L type fagging, be fixed with the roof in the backup pad, be connected with first mounting panel and second mounting panel through coupling assembling on the roof, be provided with the feed subassembly that is used for the inside feed of inlet pipe on the first mounting panel, be provided with on the second mounting panel and be used for discerning the subassembly of bleeding inside the exhaust tube.

Preferably, conveying assembly is including fixing two mounting brackets on the bottom plate, two it is connected with the live-rollers to rotate on the mounting bracket, two be provided with the conveyer belt between the live-rollers, install the motor on the bottom plate, through belt transmission between the output of motor and the live-rollers.

Preferably, the locating component comprises strip-shaped plates fixed at the opposite ends of the two L-shaped supporting plates respectively, and an arc-shaped surface is formed in one side of each strip-shaped plate.

Preferably, coupling assembling includes a plurality of first T type slide bars of difference sliding connection on first mounting panel and second mounting panel, each the one end and the roof of first T type slide bar are fixed mutually, each the cover is equipped with first spring on the lateral wall of first T type slide bar.

Preferably, the feeding assembly comprises a connecting plate fixed below the top plate, a liquid storage tank is mounted on the connecting plate, liquid for fixing the carbon fiber product is arranged in the liquid storage tank, a first mounting pipe is mounted on the first mounting plate, the first mounting pipe is connected with the liquid storage tank through a first connecting hose, and a flow detection probe for detecting the flow of the liquid in the first connecting hose is mounted on the first connecting hose.

Preferably, the subassembly of bleeding is including fixing the fixed plate in L type fagging, install the fan on the fixed plate, install the second installation pipe on the second mounting panel, be connected through second coupling hose between the port of bleeding of second installation pipe and fan, install the proximity switch who is used for carbon fiber curing assembly transportation in-process position identification on the fixed plate.

Preferably, be provided with two promotion subassemblies that are used for exhaust tube and inlet pipe to promote between two parties on the strip shaped plate respectively, the promotion subassembly includes the push pedal, two the push pedal on the promotion subassembly is located the below of first mounting panel and second mounting panel respectively, the V type constant head tank has been seted up to one side that the push pedal leans on to the exhaust tube, be provided with the pulling subassembly that is used for first mounting panel and second mounting panel pulling between push pedal and first mounting panel and push pedal and the second mounting panel, be provided with the extrusion subassembly that is used for the push pedal extrusion to promote on first mounting panel and the second mounting panel, be provided with the direction subassembly that is used for the push pedal to be extruded the back motion direction on the strip shaped plate.

Preferably, the pulling assembly comprises electromagnets fixed on the first mounting plate and the second mounting plate, iron blocks are fixed on the push plates, and the electromagnets and the iron blocks are oppositely arranged.

Preferably, the extrusion assembly comprises a transmission plate fixed at the upper end of the push plate, an inclined plane is formed on the transmission plate, and a pressing plate for extruding the inclined plane is fixed on one side, close to the push plate, of the first mounting plate and one side, close to the push plate, of the second mounting plate.

Preferably, the guide assembly is including fixing the rectangular plate on the bar shaped plate, sliding connection has a plurality of second T type slide bars on the rectangular plate, each the one end and the push pedal of second T type slide bar are fixed mutually, each the cover is equipped with the second spring on the lateral wall of second T type slide bar.

Compared with the prior art, the invention has the beneficial effects that:

(1) This kind of can convey carbon fiber product solidification equipment in succession, in the whole fixed car of handling, through conveying assembly's transport and locating component and the location cooperation that promotes the subassembly, be convenient for carry out serialization transport and accurate fixed processing to carbon fiber solidification subassembly, improved the efficiency that carbon fiber solidification subassembly was fixed to be handled.

(2) This kind of can convey carbon fiber product solidification equipment in succession, at the in-process to carbon fiber curing subassembly curing treatment, can form the detection discernment to carbon fiber curing subassembly internal seal nature, be convenient for when carbon fiber curing subassembly, the leakproofness of quick discernment carbon fiber curing subassembly avoids annotating liquid in-process part shaping liquid outflow, the solidification effect after the solidification of every carbon fiber curing subassembly of further assurance.

Drawings

FIG. 1 is a schematic view of the overall configuration of the present invention;

FIG. 2 is a schematic view of a supply assembly and an evacuation assembly according to the present invention;

FIG. 3 is a schematic view of the pushing assembly and the pulling assembly of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 2;

FIG. 5 is an enlarged view of the structure at B in FIG. 2;

FIG. 6 is an enlarged view of the structure at C in FIG. 3;

fig. 7 is an enlarged schematic view of the structure at D in fig. 3.

In the figure: 1. a base plate; 2. a carbon fiber curing assembly; 201. sealing the bag; 202. an air exhaust pipe; 203. a feed pipe; 3. a delivery assembly; 301. a mounting frame; 302. a rotating roller; 303. a conveyor belt; 304. a motor; 305. a belt; 4. an L-shaped supporting plate; 5. a support plate; 6. a top plate; 7. a positioning assembly; 701. a strip plate; 702. an arc-shaped surface; 8. a first mounting plate; 9. a second mounting plate; 10. a supply assembly; 1001. a first mounting tube; 1002. a connecting plate; 1003. a liquid storage tank; 1004. a first connecting hose; 1005. a flow detection probe; 11. an air extraction assembly; 1101. a fixing plate; 1102. a fan; 1103. a second connecting hose; 1104. a second mounting tube; 1105. a proximity switch; 12. a connecting assembly; 1201. a first T-shaped slide bar; 1202. a first spring; 13. a pushing assembly; 1301. pushing the plate; 1302. a V-shaped positioning groove; 14. a guide assembly; 1401. a rectangular plate; 1402. a second T-shaped slide bar; 1403. a second spring; 15. a pulling assembly; 1501. an electromagnet; 1502. an iron block; 16. an extrusion assembly; 1601. a drive plate; 1602. a bevel; 1603. and (7) pressing a plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides a can continuous conveying carbon fiber product solidification equipment, including carbon fiber solidification subassembly 2 and bottom plate 1, carbon fiber solidification subassembly 2 includes sealing bag 201, sealing bag 201's inside is provided with the carbon fiber, install exhaust tube 202 and inlet pipe 203 on the sealing bag 201, be provided with the conveyor components 3 that are used for carbon fiber solidification subassembly 2 to carry on the bottom plate 1, be fixed with two L type faggings 4 on the bottom plate 1, be provided with on two L type faggings 4 and be used for the locating component 7,L type fagging 4 of carbon fiber solidification subassembly 2 transportation in-process location and be fixed with backup pad 5, be fixed with roof 6 on the backup pad 5, be connected with first mounting panel 8 and second mounting panel 9 through coupling assembling 12 on the roof 6, be provided with on the first mounting panel 8 and be used for the feed subassembly 10 to the inside feed of inlet pipe 203, be provided with on the second mounting panel 9 and be used for discerning the subassembly 11 of bleeding to the inside of exhausting of exhaust tube 202.

Conveying assembly 3 is including fixing two mounting brackets 301 on bottom plate 1, it is connected with live-rollers 302 to rotate on two mounting brackets 301, be provided with conveyer belt 303 between two live-rollers 302, install motor 304 on the bottom plate 1, through belt 305 transmission between motor 304's output and the live-rollers 302, carbon fiber curing assembly 2 who treats the solidification is placed on conveyer belt 303, place the completion back, start motor 304, the in-process that motor 304 started, rotate through belt 305 drive live-rollers 302, at live-rollers 302 pivoted in-process, drive conveyer belt 303 is carried carbon fiber curing assembly 2 that needs curing.

Locating component 7 is including fixing the bar board 701 in two L type fagging 4 relative one ends respectively, arcwall face 702 has been seted up to one side of two bar boards 701, conveyer belt 303 carries out the in-process of carrying to carbon fiber curing component 2, the arcwall face 702 on exhaust tube 202 and the inlet pipe 203 on the carbon fiber curing component 2 and two bar boards 701 offsets, through the promotion between two arcwall faces 702 and exhaust tube 202 and the inlet pipe 203, make carbon fiber curing component 2 remove to between two bar boards 701, carbon fiber curing component 2 to among the transportation process fixes a position in the middle of, be convenient for more accurate carry out solidification treatment to carbon fiber curing component 2.

Connecting assembly 12 includes a plurality of first T type slide bars 1201 on first mounting panel 8 and second mounting panel 9 of sliding connection respectively, the one end and the roof 6 of each first T type slide bar 1201 are fixed mutually, the cover is equipped with first spring 1202 on the lateral wall of each first T type slide bar 1201, through each first T type slide bar 1201, guide the motion of first mounting panel 8 and second mounting panel 9, through each first spring 1202, be convenient for first mounting panel 8 and second mounting panel 9 after the atress reset.

The feeding assembly 10 comprises a connecting plate 1002 fixed below the top plate 6, a liquid storage tank 1003 is installed on the connecting plate 1002, liquid for fixing carbon fiber products is arranged inside the liquid storage tank 1003, a first installation pipe 1001 is installed on a first installation plate 8, the first installation pipe 1001 is connected with the liquid storage tank 1003 through a first connecting hose 1004, a flow detection probe 1005 for detecting the flow of the liquid inside the first connecting hose 1004 is installed on the first connecting hose 1004, air extraction processing is performed on the inside of the carbon fiber curing assembly 2 through an air extraction assembly 11, during the air extraction processing on the inside of the carbon fiber curing assembly 2, negative pressure is generated inside the carbon fiber curing assembly 2, the liquid for fixing carbon fibers inside the liquid storage tank 1003 is extracted to the inside of the carbon fiber curing assembly 2 through the first installation pipe 1001 and the first connecting hose 1004 under the effect of pressure, the carbon fiber curing component 2 is fixed, in the curing process of the carbon fiber curing component 2, the fan 1102 is used for exhausting air to the inside of the carbon fiber curing component 2, in the exhausting process, the flow rate of liquid conveying on the first connecting hose 1004 is detected and identified through the flow rate detection probe 1005, when the flow rate of liquid conveying for curing in the first connecting hose 1004 is too low or is not conveyed, when the carbon fiber curing component 2 is subjected to the exhausting process, the pressure on the first mounting pipe 1001 and the first connecting hose 1004 is insufficient due to the low tightness existing on the carbon fiber curing component 2, the detection and identification of the internal tightness of the carbon fiber curing component 2 are formed, the tightness of the carbon fiber curing component 2 can be rapidly identified when the carbon fiber curing component 2 is used, and the outflow of part of molding liquid in the liquid injection process is avoided, further guarantee the curing effect of each carbon fiber curing component 2 after curing.

The air exhaust assembly 11 comprises a fixing plate 1101 fixed on an L-shaped supporting plate 4, a fan 1102 is installed on the fixing plate 1101, a second installation pipe 1104 is installed on a second installation plate 9, the second installation pipe 1104 is connected with an air exhaust port of the fan 1102 through a second connection hose 1103, a proximity switch 1105 used for position recognition in the conveying process of the carbon fiber curing assembly 2 is installed on the fixing plate 1101, the first installation pipe 1001 and the second installation pipe 1104 are respectively inserted into the feeding pipe 203 and the air exhaust pipe 202, the fan 1102 is started, and in the starting process of the fan 1102, air exhaust treatment is performed on the interior of the carbon fiber curing assembly 2 through the second connection hose 1103 and the second installation pipe 1104.

The strip-shaped plate 701 is provided with two pushing assemblies 13 which are respectively used for centrally pushing the exhaust pipe 202 and the feed pipe 203, each pushing assembly 13 comprises a pushing plate 1301, the pushing plates 1301 on the two pushing assemblies 13 are respectively positioned below the first mounting plate 8 and the second mounting plate 9, one side, close to the exhaust pipe 202, of each pushing plate 1301 is provided with a V-shaped positioning groove 1302, pulling assemblies 15 used for pulling the first mounting plate 8 and the second mounting plate 9 are arranged between the pushing plates 1301 and the first mounting plate 8 and between the pushing plates 1301 and the second mounting plate 9, squeezing assemblies 16 used for squeezing and pushing the pushing plates 1301 are arranged on the first mounting plate 8 and the second mounting plate 9, guide assemblies 14 used for guiding the pushing plates 1301 after being squeezed to move are arranged on the strip-shaped plate 701, the two pushing plates 1301 are respectively close to the exhaust pipe 202 and the feed pipe 203 through the squeezing assemblies 16, in the moving process, the V-shaped positioning grooves 1302 on the two pushing plates 1301 are respectively abutted against the exhaust pipe 202 and the feed pipe 203 and the exhaust pipe 202 and the feed pipe 203, and the feed pipe 203 are further conveniently and accurately inserted into the feed pipe 1104 of the first mounting pipe 1001 and the second mounting pipe 1104.

The pulling assembly 15 comprises electromagnets 1501 fixed to the first mounting plate 8 and the second mounting plate 9, iron blocks 1502 are fixed to the two push plates 1301, the electromagnets 1501 and the iron blocks 1502 are arranged oppositely, the two electromagnets 1501 are electrified, the two electrified electromagnets 1501 are respectively pulled to move towards the carbon fiber curing assembly 2 under the action of magnetic force between the two electrified electromagnets 1501 and the two iron blocks 1502, and in the moving process of the first mounting plate 8 and the second mounting plate 9, the first mounting pipe 1001 and the second mounting pipe 1104 are respectively inserted into the feeding pipe 203 and the exhaust pipe 202.

The extrusion assembly 16 comprises a driving plate 1601 fixed at the upper end of the push plate 1301, an inclined surface 1602 is arranged on the driving plate 1601, a pressing plate 1603 for extruding the inclined surface 1602 is fixed on one side of the first mounting plate 8 and the second mounting plate 9 close to the push plate 1301, and in the process that the first mounting plate 8 and the second mounting plate 9 close to the carbon fiber curing assembly 2 move, the inclined surface 1602 on the pressing plate 1603 driving plate 1601 is abutted to push the two push plates 1301 close to the exhaust pipe 202 and the feeding pipe 203 to move respectively.

The guide assembly 14 comprises a rectangular plate 1401 fixed on the strip-shaped plate 701, the rectangular plate 1401 is connected with a plurality of second T-shaped sliding rods 1402 in a sliding mode, one end of each second T-shaped sliding rod 1402 is fixed with the push plate 1301, a second spring 1403 is sleeved on the side wall of each second T-shaped sliding rod 1402, in the moving process of the push plate 1301, each second T-shaped sliding rod 1402 is driven to slide on the rectangular plate 1401, the movement of the stressed push plate 1301 is guided through the sliding of each second T-shaped sliding rod 1402, and the push plate 1301 after moving is convenient to reset through each second spring 1403.

The working principle is as follows: in the process of curing the carbon fiber curing component 2, the carbon fiber curing component 2 to be cured is placed on the conveying belt 303, after the placement is completed, the motor 304 is started, in the process of starting the motor 304, the rotating roller 302 is driven to rotate through the belt 305, in the process of rotating the rotating roller 302, the conveying belt 303 is driven to convey the carbon fiber curing component 2 to be cured, in the process of conveying the carbon fiber curing component 2 through the conveying belt 303, the air exhaust pipe 202 and the feed pipe 203 on the carbon fiber curing component 2 are abutted against the arc-shaped surfaces 702 on the two strip-shaped plates 701, the carbon fiber curing component 2 is moved between the two strip-shaped plates 701 through the pushing between the two arc-shaped surfaces 702 and the air exhaust pipe 202 and the feed pipe 203, the carbon fiber curing component 2 in the conveying process is centrally positioned, and the carbon fiber curing component 2 is conveniently and accurately cured;

with the continuous conveying of the carbon fiber curing component 2 after the central positioning by the conveying belt 303, when the carbon fiber curing component 2 moves to one side of the proximity switch 1105, the proximity switch 1105 senses and identifies the position of the carbon fiber curing component 2 and stops the driving of the conveying belt 303, the two electromagnets 1501 are electrified, the two electromagnets 1501 which are electrified pull the first mounting plate 8 and the second mounting plate 9 to move towards the carbon fiber curing component 2 under the action of magnetic force between the two electromagnets 1501 and the two iron blocks 1502, respectively, the first mounting pipe 1001 and the second mounting pipe 1104 are respectively inserted into the feeding pipe 203 and the exhaust pipe 202 in the process of the movement of the first mounting plate 8 and the second mounting plate 9, the inclined surfaces 1602 on the driving plates 1601 of the pressing plates 1603 are abutted to push the two pushing plates 1301 to move towards the exhaust pipe 202 and the feeding pipe 203 respectively in the process of the movement of the first mounting plate 8 and the second mounting plate 9 towards the carbon fiber curing component 2, in the process of movement, the V-shaped positioning grooves 1302 on the two push plates 1301 are respectively abutted against the exhaust pipe 202 and the feed pipe 203 and push the exhaust pipe 202 and the feed pipe 203 centrally, so that the first mounting pipe 1001 and the second mounting pipe 1104 can be further inserted into the feed pipe 203 and the exhaust pipe 202 more accurately, after the first mounting pipe 1001 and the second mounting pipe 1104 are respectively connected with the feed pipe 203 and the exhaust pipe 202 in an inserting manner, the fan 1102 is started, in the process of starting the fan 1102, the inside of the carbon fiber curing component 2 is subjected to air extraction treatment through the second connecting hose 1103 and the second mounting pipe 1104, in the process of air extraction treatment of the inside of the carbon fiber curing component 2, negative pressure is generated inside the carbon fiber curing component 2, and the air extraction liquid for fixing carbon fibers inside the liquid storage tank 1003 is introduced into the carbon fiber curing component 2 through the first mounting pipe 1001 and the first connecting hose 1004 under the action of pressure, the carbon fiber curing assembly 2 is fixed, and the carbon fiber curing assembly 2 is conveniently and continuously conveyed and accurately fixed through the positioning matching of the conveying and positioning assembly 7 of the conveying assembly 3 and the pushing assembly 13 in the whole fixed vehicle, so that the efficiency of fixing the carbon fiber curing assembly 2 is improved;

and in the process of curing the carbon fiber curing assembly 2, the inside of the carbon fiber curing assembly 2 is pumped by the fan 1102, in the process of pumping, the flow of liquid conveying on the first connecting hose 1004 is detected and identified by the flow detection probe 1005, when the flow of liquid conveying for curing inside the first connecting hose 1004 is too small or is not conveyed, the carbon fiber curing assembly 2 is pumped and treated, the pressure on the first mounting pipe 1001 and the first connecting hose 1001 is insufficient due to the low tightness on the carbon fiber curing assembly 2, the detection and identification of the tightness inside the carbon fiber curing assembly 2 are formed, the tightness of the carbon fiber curing assembly 2 can be rapidly identified when the carbon fiber curing assembly 2 is used, the outflow of part of formed liquid in the liquid injection process is avoided, and the curing effect of each carbon fiber curing assembly 2 after curing is further ensured.

Claims (7)

1. The utility model provides a can continuous conveying carbon fiber product solidification equipment, includes carbon fiber solidification subassembly (2) and bottom plate (1), carbon fiber solidification subassembly (2) are including sealing bag (201), the inside of sealing bag (201) is provided with the carbon fiber, install exhaust tube (202) and inlet pipe (203) on sealing bag (201), its characterized in that: the carbon fiber curing component conveying device is characterized in that a conveying component (3) used for conveying a carbon fiber curing component (2) is arranged on the bottom plate (1), two L-shaped supporting plates (4) are fixed on the bottom plate (1), positioning components (7) used for positioning the carbon fiber curing component (2) in the conveying process are arranged on the two L-shaped supporting plates (4), supporting plates (5) are fixed on the L-shaped supporting plates (4), top plates (6) are fixed on the supporting plates (5), the top plates (6) are connected with first mounting plates (8) and second mounting plates (9) through connecting components (12), feeding components (10) used for feeding the interior of the feeding pipes (203) are arranged on the first mounting plates (8), and air extracting identification air extracting components (11) used for extracting air from the interior of the air extracting pipes (202) are arranged on the second mounting plates (9);

the conveying assembly (3) comprises two mounting frames (301) fixed on a bottom plate (1), rotating rollers (302) are rotatably connected to the two mounting frames (301), a conveying belt (303) is arranged between the two rotating rollers (302), a motor (304) is mounted on the bottom plate (1), and the output end of the motor (304) is in transmission with the rotating rollers (302) through a belt (305);

the positioning assembly (7) comprises strip-shaped plates (701) which are respectively fixed at one ends of the two L-shaped supporting plates (4) which are opposite to each other, and one sides of the two strip-shaped plates (701) are provided with arc-shaped surfaces (702);

be provided with two push assembly (13) that are used for exhaust tube (202) and inlet pipe (203) to promote between two parties on bar shaped plate (701), push assembly (13) include push pedal (1301), two push pedal (1301) on push assembly (13) are located the below of first mounting panel (8) and second mounting panel (9) respectively, V type constant head tank (1302) has been seted up to one side that push pedal (1301) leaned on exhaust tube (202), be provided with between push pedal (1301) and first mounting panel (8) and push pedal (1301) and second mounting panel (9) and be used for first mounting panel (8) and second mounting panel (9) pulling subassembly (15) of pulling, be provided with on first mounting panel (8) and second mounting panel (9) and be used for push pedal (1301) to extrude extrusion subassembly (16) that promote, be provided with on bar shaped plate (701) and be used for push pedal (1301) by guide subassembly (14) of extrusion back motion direction.

2. A continuous transfer carbon fiber product curing apparatus as claimed in claim 1, wherein: coupling assembling (12) are including a plurality of first T type slide bars (1201) of difference sliding connection on first mounting panel (8) and second mounting panel (9), respectively one end and roof (6) of first T type slide bar (1201) are fixed mutually, each the cover is equipped with first spring (1202) on the lateral wall of first T type slide bar (1201).

3. A continuous transfer carbon fiber product curing apparatus as claimed in claim 2, wherein: the feeding assembly (10) comprises a connecting plate (1002) fixed below the top plate (6), a liquid storage tank (1003) is mounted on the connecting plate (1002), liquid used for fixing carbon fiber products is arranged inside the liquid storage tank (1003), a first mounting pipe (1001) is mounted on the first mounting plate (8), the first mounting pipe (1001) is connected with the liquid storage tank (1003) through a first connecting hose (1004), and a flow detection probe (1005) used for detecting the flow of the liquid inside the first connecting hose (1004) is mounted on the first connecting hose (1004).

4. A continuous transfer carbon fiber product curing apparatus as claimed in claim 3, wherein: the air exhaust assembly (11) comprises a fixing plate (1101) fixed on an L-shaped supporting plate (4), a fan (1102) is installed on the fixing plate (1101), a second installation pipe (1104) is installed on a second installation plate (9), the air exhaust ports of the second installation pipe (1104) and the fan (1102) are connected through a second connecting hose (1103), and a proximity switch (1105) used for position identification in the conveying process of the carbon fiber curing assembly (2) is installed on the fixing plate (1101).

5. A device for continuously conveying carbon fiber products as claimed in claim 4, wherein: pulling subassembly (15) including fixing electro-magnet (1501) on first mounting panel (8) and second mounting panel (9), two be fixed with iron plate (1502) on push pedal (1301), relative setting between electro-magnet (1501) and iron plate (1502).

6. A continuous transfer carbon fiber product curing apparatus as claimed in claim 5, wherein: the extrusion subassembly (16) is including fixing driving plate (1601) in push pedal (1301) upper end, inclined plane (1602) have been seted up on driving plate (1601), first mounting panel (8) and second mounting panel (9) are by being fixed with clamp plate (1603) to inclined plane (1602) extrusion to one side of push pedal (1301).

7. A continuous transfer carbon fiber product curing apparatus as claimed in claim 6, wherein: the guide assembly (14) comprises a rectangular plate (1401) fixed on a strip-shaped plate (701), a plurality of second T-shaped sliding rods (1402) are connected onto the rectangular plate (1401) in a sliding mode, one end of each second T-shaped sliding rod (1402) is fixed with a push plate (1301), and a second spring (1403) is sleeved on the side wall of each second T-shaped sliding rod (1402).

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