CN111497422B - Carbon fiber composite board forming processing method - Google Patents

Abstract

The invention relates to a carbon fiber composite board forming and processing method, which uses carbon fiber composite board forming and processing equipment, wherein the carbon fiber composite board forming and processing equipment comprises a base, a transmission unit and a drying device, the transmission unit is arranged on the left side of the upper surface of the base, a driving motor is arranged on the right side of the upper surface of the base, the transmission unit is in transmission connection with an output shaft of the driving motor through a belt, the drying device is arranged above the driving motor, and the output shaft of the driving motor is in transmission connection with the drying device through the belt. The invention can solve the following problems in the drying treatment process of the carbon fiber composite board at present: a. the plates are heated unevenly, so that the bonding between the plates is not firm, the quality cannot be ensured, the service life of the plates is reduced, and economic loss is caused; b. the panel needs artifical the input drying equipment for panel drying efficiency is low, still can cause the risk of workman scald because of the temperature.

Description

Carbon fiber composite board forming processing method

Technical Field

The invention relates to the field of plate processing, in particular to a carbon fiber composite plate forming processing method.

Background

Carbon fiber composite board has promoted self bearing capacity and strong intensity on the basis of original composite sheet, and weight is also comparatively light and handy, carbon fiber composite board is mainly based on the base plate, filler plate and carbon cloth bond compositely and make, use the base plate as the basis, it is compound to bond the filler plate earlier in the both sides of base plate, then bond one deck carbon fiber board in the filler plate outside, after all required panels are made, just begin to bond to panel, mechanical roll extrusion is carried out after the bonding, make the glue dispersion between the panel even, then carry out drying process to panel again, make glue solidify the intensity that improves the panel and bond.

At present, the following problems exist in the drying treatment process of the carbon fiber composite board: a. when the carbon fiber composite board is bonded and then dried, the boards are heated unevenly, so that the bonding between the boards is not firm, the quality cannot be ensured, the service life of the boards is reduced, and economic loss is caused; b. when the carbon fiber composite board is well bonded and then dried, the board needs to be manually put into drying equipment, so that the board drying efficiency is low, and the risk of scalding workers due to temperature can be caused.

Disclosure of Invention

The invention aims to provide a carbon fiber composite board forming processing method to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the carbon fiber composite board forming and processing method uses carbon fiber composite board forming and processing equipment, the carbon fiber composite board forming and processing equipment comprises a base, a conveying unit and a drying device, and the specific method when the carbon fiber composite board forming and processing equipment is used for drying the carbon fiber composite board is as follows:

step one, preparation operation: debugging carbon fiber composite board forming and processing equipment;

step two, manufacturing the plate: preparing a base plate, a filling plate and a carbon fiber plate which are required by the carbon fiber composite plate completely;

step three, plate bonding: bonding the substrate, the filling plate and the carbon fiber plate prepared in the step two, bonding the filling plate on two sides of the substrate, and bonding the carbon fiber plate on the outer side of the filling plate;

step four, roll forming: rolling and forming the carbon fiber composite board bonded in the third step;

step five, drying and reinforcing: putting the carbon fiber composite board rolled in the fourth step into a transmission unit, and transmitting the carbon fiber composite board into a drying device by the transmission unit for drying;

step six, collecting and warehousing: packaging and collecting the carbon fiber composite board dried in the step five, and then warehousing;

the left side of the upper surface of the base is provided with a conveying unit, the right side of the upper surface of the base is provided with a driving motor, the conveying unit is in transmission connection with an output shaft of the driving motor through a belt, a drying device is arranged above the driving motor, and the output shaft of the driving motor is in transmission connection with the drying device through a belt; wherein:

drying device is including the stoving box, the mobile unit, the thermal current unit, the master gear, from gear and centre gripping unit, the support riser is installed to edge symmetry around the base upper surface, support the riser upper end and install the stoving box, the mobile unit is installed to the internal bilateral symmetry of stoving box, the thermal current unit is installed to the internal front and back symmetry of stoving box, the mobile unit front and back end symmetry is provided with the master gear, the master gear is incomplete gear, thermal current unit front and back end symmetry is provided with from the gear, the master gear with from gear intermittent type nature meshing, evenly be provided with a plurality of centre gripping unit on the mobile unit.

As a further scheme of the invention: the conveying unit comprises a discharging frame, supporting inclined rods, L-shaped supporting rods, conveying rollers, conveying belts, conveying push rods and bearing supporting plates, the left side of the upper surface of a base is provided with the discharging frame, the bottom of the inner wall of the left side of the discharging frame is provided with the supporting inclined rods, the L-shaped supporting rods are mounted in the middle of the inner wall of the right side of the discharging frame through hinges, a stretching spring is arranged between the discharging frame and one end of each L-shaped supporting rod, three pairs of supporting vertical rods are uniformly arranged in front of and behind the upper surface of the base, the conveying rollers are mounted between the upper ends of the supporting vertical rods in pairs, the conveying rollers are connected through the conveying belts, the upper surfaces of the supporting inclined rods are flush with the upper surfaces of the left sides of the conveying belts, the outer side surfaces of the conveying belts are uniformly provided.

As a further scheme of the invention: the movable unit comprises a movable support, a movable fluted disc, a movable chain, a movable shaft rod, a movable support plate, a movable rack, a movable support rod and a movable gear, wherein the movable support is symmetrically arranged in the drying box body in a left-right mode, the movable fluted discs are symmetrically arranged on the front side and the rear side of the movable support in a vertical mode, the movable fluted discs positioned on the same side of the movable support are connected through the movable chain, the movable fluted discs positioned at the upper end or the lower end of the movable support are connected through the movable shaft rod, the movable support plate is installed in the middle of the inner side of the movable support, the movable rack is installed on the movable support plate, the movable support rod is evenly provided with the plurality of movable support rods.

As a further scheme of the invention: the thermal current unit includes the thermal current cavity, the electrothermal tube, thermal current fan and thermal current tripe, the inside front and back symmetry of stoving box is provided with the thermal current cavity, install the electrothermal tube in the thermal current cavity, both ends are provided with the heat extraction hole about the thermal current cavity inboard, the heat extraction hole is provided with the thermal current fan outward, the inside cavity that is of movable support, the opposite face that is located between the movable support on the inside left and right sides of stoving box has all seted up the rectangular hole, and evenly be provided with a plurality of thermal current tripe through the long axostylus axostyle on the rectangular hole, through chain drive connection between the thermal.

As a further scheme of the invention: the clamping unit comprises a limiting assembly, a clamping support rod, a triangular stop lever and a clamping assembly, the two ends of the moving support rod are symmetrically provided with the limiting assembly, the middle of the moving support rod is provided with the clamping support rod through a pin shaft, the triangular stop lever is arranged between the limiting assembly and the clamping support rod, the moving gear is connected with the clamping support rod through a pin shaft, and the two ends of the clamping support rod are symmetrically provided with the clamping assembly.

As a further scheme of the invention: the limiting assembly comprises a limiting frame body, two limiting blocks and two lower limiting blocks, the limiting frame body is bilaterally symmetrical, the upper limiting blocks are arranged above the inside of the limiting frame body in a bilateral symmetry mode through strong springs, and the lower limiting blocks are arranged below the inside of the limiting frame body in a bilateral symmetry mode through weak springs.

As a further scheme of the invention: the centre gripping subassembly includes back splint, lower clamp splice, go up the clamp splice, the centre gripping connecting rod, spring telescopic link and the tight piece of clamp, the clamp splice is installed down to back splint lower extreme, hinge and last clamp splice one end are passed through to back splint upper end, the shrink groove has all been seted up with last clamp splice internal surface to back splint, hinged joint is passed through with centre gripping connecting rod one end to back splint lower extreme, the centre gripping connecting rod other end is connected with spring telescopic link one end through the round pin axle, it passes through the hinge and is connected with the spring telescopic link other end to go up the clamp splice other end, the both sides that are located the shrink groove of pressing from both.

Compared with the prior art, the invention has the following advantages:

the drying treatment process for the carbon fiber composite board can be solved, and the following problems exist: a. when the carbon fiber composite board is bonded and then dried, the boards are heated unevenly, so that the bonding between the boards is not firm, the quality cannot be ensured, the service life of the boards is reduced, and economic loss is caused; b. when the carbon fiber composite board is well bonded and then dried, the board needs to be manually put into drying equipment, so that the board drying efficiency is low, and the risk of scalding workers due to temperature is also possible;

when the device is used for drying the carbon fiber composite plates, the conveying unit can be used for placing a plurality of carbon fiber composite plates to be dried at one time, and the conveying unit is matched with the moving unit, so that the drying efficiency of the carbon fiber composite plates is effectively improved, and the risk of scalding workers is solved; the mobile unit can take panel removal in-process to overturn to panel, and the mobile unit can also take the heat flow unit to move at the removal in-process moreover for panel is when the upset, and the heat flow unit blows to panel with the even circulation of hot gas flow, makes the more even of panel stoving.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow chart of the operation of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic elevational cross-sectional plan view of the present invention;

FIG. 4 is a side cross-sectional plan view of the present invention;

FIG. 5 is a side view, partially in section, of the present invention in plan;

FIG. 6 is a schematic view of a cross-sectional plan view of a thermal flow cell of the present invention;

FIG. 7 is an enlarged plan view of the invention at A of FIG. 3;

FIG. 8 is an enlarged plan view of the invention at B of FIG. 4;

fig. 9 is an enlarged plan view of the invention at C of fig. 4.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further explained with reference to fig. 1 to 9.

The carbon fiber composite board forming and processing method uses carbon fiber composite board forming and processing equipment, the carbon fiber composite board forming and processing equipment comprises a base 1, a conveying unit 2 and a drying device 3, and the specific method when the carbon fiber composite board forming and processing equipment is adopted to dry the carbon fiber composite board is as follows:

step one, preparation operation: debugging carbon fiber composite board forming and processing equipment;

step two, manufacturing the plate: preparing a base plate, a filling plate and a carbon fiber plate which are required by the carbon fiber composite plate completely;

step three, plate bonding: bonding the substrate, the filling plate and the carbon fiber plate prepared in the step two, bonding the filling plate on two sides of the substrate, and bonding the carbon fiber plate on the outer side of the filling plate;

step four, roll forming: rolling and forming the carbon fiber composite board bonded in the third step;

step five, drying and reinforcing: putting the carbon fiber composite board rolled in the fourth step into a transmission unit 2, and transmitting the carbon fiber composite board into a drying device 3 by the transmission unit 2 for drying;

step six, collecting and warehousing: packaging and collecting the carbon fiber composite board dried in the step five, and then warehousing;

the left side of the upper surface of the base 1 is provided with a conveying unit 2, the right side of the upper surface of the base 1 is provided with a driving motor 11, the conveying unit 2 is in transmission connection with an output shaft of the driving motor 11 through a belt, a drying device 3 is arranged above the driving motor 11, and the output shaft of the driving motor 11 is in transmission connection with the drying device 3 through a belt; wherein:

the conveying unit 2 comprises a discharging frame 21, supporting inclined rods 22, L-shaped supporting rods 23, conveying rollers 24, a conveying belt 25, conveying push rods 26 and supporting support plates 27, the discharging frame 21 is arranged on the left side of the upper surface of the base 1, the supporting inclined rods 22 are arranged at the bottom of the inner wall of the left side of the discharging frame 21, the L-shaped supporting rods 23 are mounted in the middle of the inner wall of the right side of the discharging frame 21 through hinges, extension springs are arranged between the discharging frame 21 and one end of each L-shaped supporting rod 23, three pairs of supporting vertical rods 13 are symmetrically and uniformly arranged in the front and back of the upper surface of the base 1, the conveying rollers 24 are mounted between the upper ends of the supporting vertical rods 13 and connected through the conveying belt 25, the upper surface of each supporting inclined rod 22 is flush with the upper surface of the left side of the conveying belt 25, a plurality of conveying push rods 26 are uniformly arranged on the outer, a limit stop 28 is arranged at the right end of the bearing support plate 27;

when the device works, the driving motor 11 increases power, the conveying roller 24 is driven to rotate through belt transmission, the conveying roller 24 rotates to drive the conveying belt 25 to rotate, during the rotation of the conveyor belt 25, the conveying push rod 26 on the conveyor belt 25 pushes the L-shaped support rod 23 to rotate, the sheet material in the discharge frame 21 then falls onto the conveyor belt 25, which is then pushed by the next conveyor pusher 26 onto the support plate 27, which, due to inertia, continues to move, under the action of the limit stop 28, the plates will stay just under the drying box 31, and after one plate falls down, the other sheet will fall to the position where the previous sheet did not fall onto the conveyor 25, during the reciprocating motion of the conveyor belt 25, the conveying push rod 26 intermittently pushes the L-shaped support rod 23 to rotate, so that the plate falls onto the conveyor belt 25, and the plate continuously enters the drying device 3 for drying operation.

The drying device 3 comprises a drying box body 31, a moving unit 32, a heat flow unit 33, a main gear 34, a secondary gear 35 and a clamping unit 36, wherein the front edge and the rear edge of the upper surface of the base 1 are symmetrically provided with supporting vertical plates 12, the drying box body 31 is arranged at the upper ends of the supporting vertical plates 12, the moving unit 32 is symmetrically arranged in the drying box body 31 from left to right, the heat flow unit 33 is symmetrically arranged in the drying box body 31 from front to back, the main gear 34 is symmetrically arranged at the front end and the rear end of the moving unit 32, the main gear 34 is an incomplete gear, the secondary gear 35 is symmetrically arranged at the front end and the rear end of the heat flow unit 33, the main gear 34 is intermittently meshed; during specific work, the driving motor 11 increases power, the conveying unit 2 conveys the plate to the position right below the drying box 31, then the moving unit 32 drives the clamping unit 36 to move, the plate is clamped, the plate starts to move towards the inside of the drying box 31, and then the heat flow unit 33 can perform drying treatment on the plate.

The moving unit 32 comprises a moving support 321, a moving fluted disc 322, a moving chain 323, a moving shaft lever 324, a moving support plate 325, a moving rack 326, moving support rods 327 and moving gears 328, the moving support 321 is symmetrically arranged in the drying box body 31 from left to right, the moving fluted discs 322 are symmetrically arranged on the front side and the rear side of the moving support 321 from top to bottom, the moving fluted discs 322 on the same side of the moving support 321 are connected through the moving chain 323, the moving fluted discs 322 on the upper end or the lower end of the moving support 321 are connected through the moving shaft lever 324, the moving support plate 325 is arranged in the middle of the inner side of the moving support 321, the moving support plates 325 are provided with the moving rack 326, the moving chain 323 is uniformly provided with a plurality of moving support rods 327, the moving gears 328 are arranged on the moving support rods; during operation, driving motor 11 improves power, moves fluted disc 322 through belt drive and moves the operation, moves fluted disc 322 and drives and move chain 323 and rotate, then moves chain 323 and drive and move branch 327 and remove, and removal gear 328 can then move, removes the in-process at removal gear 328, can with remove rack 323 meshing for centre gripping unit 36 is rotatory, thereby realizes the even stoving of upset of panel.

The heat flow unit 33 comprises a heat flow cavity 331, an electrothermal tube 332, a heat flow fan 333 and heat flow louvers 334, the heat flow cavity 331 is symmetrically arranged in the drying box 31 from front to back, the electrothermal tube 332 is installed in the heat flow cavity 331, heat exhaust holes are formed in the left end and the right end of the inner side of the heat flow cavity 331, the heat flow fan 333 is arranged outside the heat exhaust holes, a cavity is formed in the movable support 321, rectangular holes are formed in opposite surfaces of the movable support 321 positioned on the left side and the right side in the drying box 31, a plurality of heat flow louvers 334 are uniformly arranged on the rectangular holes through a long shaft rod 14, the heat flow louvers 334 are connected through chain transmission, and a reset spring is connected; when the plate drying machine works specifically, the electric heating pipe 332 is started, heat flow is blown to the cavity in the movable support 321 through the heat discharging hole by the heat flow fan 333, and the main gear 34 and the secondary gear 35 are intermittently meshed, so that the heat flow louver 334 swings up and down, the heat flow is blown to the plate circularly, and the plate is dried more uniformly.

The clamping unit 36 comprises a limiting component 361, a clamping support rod 362, a triangular stop lever 363 and a clamping component 364, the limiting component 361 is symmetrically arranged at two ends of the moving support rod 327, the clamping support rod 362 is arranged in the middle of the moving support rod 327 through a pin shaft, the triangular stop lever 363 is arranged between the limiting component 361 and the clamping support rod 362, the moving gear 328 is connected with the clamping support rod 362 through a pin shaft, and the clamping component 364 is symmetrically arranged at two ends of the clamping support rod 362; during specific work, in the moving process of the moving gear 328, the moving gear 328 is meshed with the moving rack 323, so that the clamping support rod 327 rotates to drive the clamping assembly 364 to rotate, the plate rotates, when the moving gear 328 is not in contact with the moving rack 323, the triangular gear rod 363 is limited by the limiting assembly 361, the clamping assembly is in a horizontal state, and then in the rotating process of the moving chain 323, the clamping assembly 364 clamps and releases the plate.

The limiting assembly 361 comprises a limiting frame body 3611, two upper limiting blocks 3612 and two lower limiting blocks 3613, wherein the two limiting frame bodies 3611 are arranged in a bilateral symmetry manner, the upper limiting blocks 3612 are arranged above the inside of the limiting frame body 3611 in a bilateral symmetry manner through strong springs, and the lower limiting blocks 3613 are arranged below the inside of the limiting frame body 3611 in a bilateral symmetry manner through weak springs; during specific work, in the moving process of the moving gear 328, the moving gear 328 is meshed with the moving rack 323, so that the clamping support rod 327 rotates, the triangular gear lever 363 rotates accordingly, the upper limiting block 3612 is squeezed open by the triangular gear lever 363, when the moving gear 328 is not in contact with the moving rack 323, the lower limiting block 3613 is squeezed open by the triangular gear lever 363 when the triangular gear lever 363 moves to the position below the lower limiting block 3613, the triangular gear lever 363 stops at the upper limiting block 3612 and the lower limiting block 3613, only the moving gear 328 is in contact with the moving rack 323, and when the clamping support rod 327 rotates, the upper limiting block 3612 connected by the strong spring can be squeezed open by the triangular gear lever 363.

The clamping assembly 364 comprises a rear clamping plate 3641, a lower clamping block 3642, an upper clamping block 3643, a clamping connecting rod 3644, a spring telescopic rod 3645 and a clamping block 3646, the lower clamping block 3642 is mounted at the lower end of the rear clamping plate 3641, the upper end of the rear clamping plate 3641 is connected with one end of the upper clamping block 3643 through a hinge, contraction grooves are formed in the inner surfaces of the rear clamping plate 3641 and the upper clamping block 3643, the lower end of the rear clamping plate 3641 is connected with one end of the clamping connecting rod 3644 through a hinge, the other end of the clamping connecting rod 3644 is connected with one end of the spring telescopic rod 3645 through a pin shaft, the other end of the upper clamping block 3643 is connected with the other end of the spring telescopic rod 3645 through a hinge, and the clamping;

during specific work, in the rotating process of the movable chain 323, the movable chain 323 can drive the rear clamping plates 3641 to rotate, when the movable chain 323 rotates to enable the lower clamping blocks 3642 to contact with plates, the lower clamping blocks 3642 can support the plates to continuously rise, because the distance between the left and right rear clamping plates 3641 in the drying box 31 is constant, in the rising process, two ends of the plates can gradually press the clamping connecting rods 3644, then the clamping connecting rods 3644 can downwards pull the upper clamping blocks 3643 through the spring telescopic rods 3645 until the clamping blocks 3646 clamp the plates, after the plates are dried, when the rear clamping plates 3641 reach the top of the drying box 31 along with the movable chain 323, the rear clamping plates can gradually separate, so that the plates gradually press the clamping connecting rods 3644, then the upper clamping blocks 3643 are rebounded to the initial state by the spring 3645, the plates completely separate from the clamping blocks 3646, and at this time, the plates can be taken out by using the existing equipment.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides a carbon-fibre composite board forming process method, it has used a carbon-fibre composite board forming process equipment, and this carbon-fibre composite board forming process equipment includes base (1), conveying unit (2) and drying device (3), its characterized in that: the specific method for drying the carbon fiber composite board by adopting the carbon fiber composite board forming and processing equipment comprises the following steps:

step one, preparation operation: debugging carbon fiber composite board forming and processing equipment;

step two, manufacturing the plate: preparing a base plate, a filling plate and a carbon fiber plate which are required by the carbon fiber composite plate completely;

step three, plate bonding: bonding the substrate, the filling plate and the carbon fiber plate prepared in the step two, bonding the filling plate on two sides of the substrate, and bonding the carbon fiber plate on the outer side of the filling plate;

step four, roll forming: rolling and forming the carbon fiber composite board bonded in the third step;

step five, drying and reinforcing: putting the carbon fiber composite board rolled in the fourth step into a transmission unit (2), and transmitting the carbon fiber composite board into a drying device (3) by the transmission unit (2) for drying;

step six, collecting and warehousing: packaging and collecting the carbon fiber composite board dried in the step five, and then warehousing;

a conveying unit (2) is arranged on the left side of the upper surface of the base (1), a driving motor (11) is arranged on the right side of the upper surface of the base (1), the conveying unit (2) is connected with an output shaft of the driving motor (11) through belt transmission, a drying device (3) is arranged above the driving motor (11), and the output shaft of the driving motor (11) is connected with the drying device (3) through belt transmission; wherein:

the conveying unit (2) comprises a discharging frame (21), supporting inclined rods (22), L-shaped supporting rods (23), conveying rollers (24), a conveying belt (25), conveying push rods (26) and a bearing supporting plate (27), the discharging frame (21) is arranged on the left side of the upper surface of the base (1), the supporting inclined rods (22) are arranged at the bottom of the inner wall of the left side of the discharging frame (21), the L-shaped supporting rods (23) are mounted in the middle of the inner wall of the right side of the discharging frame (21) through hinges, a tension spring is arranged between the discharging frame (21) and one end of each L-shaped supporting rod (23), three pairs of supporting vertical rods (13) are symmetrically and uniformly arranged in front and back of the upper surface of the base (1), the conveying rollers (24) are mounted between the upper ends of each pair of the supporting vertical rods (13), the conveying rollers (24) are connected through the conveying belt (25), the upper surface of each supporting inclined rod (22), the other end of the L-shaped supporting rod (23) can be contacted with the upper end of the conveying push rod (26), the bearing supporting plate (27) is arranged in the middle of the lower end face of the drying box body (31), and a limit stop (28) is arranged at the right end of the bearing supporting plate (27);

the drying device (3) comprises a drying box body (31), a moving unit (32), a heat flow unit (33), a main gear (34), a secondary gear (35) and clamping units (36), wherein supporting vertical plates (12) are symmetrically arranged at the front and rear edges of the upper surface of a base (1), the drying box body (31) is arranged at the upper ends of the supporting vertical plates (12), the moving unit (32) is symmetrically arranged in the drying box body (31) from left to right, the heat flow unit (33) is symmetrically arranged in the drying box body (31) from front to back, the main gear (34) is symmetrically arranged at the front and rear ends of the moving unit (32), the main gear (34) is an incomplete gear, the secondary gear (35) is symmetrically arranged at the front and rear ends of the heat flow unit (33), the main gear (34) is intermittently meshed with the secondary gear (35), and the;

the moving unit (32) comprises a moving support (321), a moving fluted disc (322), a moving chain (323), a moving shaft lever (324), moving support plates (325), a moving rack (326), moving support rods (327) and moving gears (328), the moving support (321) is arranged in the drying box body (31) in a bilateral symmetry manner, the moving fluted discs (322) are arranged on the front side and the rear side of the moving support (321) in an up-and-down symmetry manner, the moving fluted discs (322) positioned on the same side of the moving support (321) are connected through the moving chain (323), the moving fluted discs (322) positioned at the upper end or the lower end of the moving support (321) are connected through the moving shaft lever (324), the moving support plates (325) are arranged in the middle of the inner side of the moving support (321), the moving rack (326) is arranged on the moving support plates (325), and a, a movable gear (328) is arranged on the movable support rod (327) through a pin shaft, and the movable rack (326) and the movable gear (328) can be intermittently meshed and connected;

the heat flow unit (33) comprises a heat flow cavity (331), an electric heating tube (332), a heat flow fan (333) and heat flow shutters (334), the heat flow cavity (331) is symmetrically arranged in the drying box body (31) front and back, the electric heating tube (332) is installed in the heat flow cavity (331), heat exhaust holes are formed in the left end and the right end of the inner side of the heat flow cavity (331), the heat flow fan (333) is arranged outside the heat exhaust holes, a cavity is formed in the movable support (321), rectangular holes are formed in opposite surfaces of the movable support (321) on the left side and the right side of the inner portion of the drying box body (31), a plurality of heat flow shutters (334) are uniformly arranged on the rectangular holes through long shaft rods (14), the heat flow shutters (334) are connected through chain transmission, and a reset spring is connected.

2. The carbon fiber composite board molding processing method according to claim 1, characterized in that: the clamping unit (36) comprises a limiting component (361), a clamping support rod (362), a triangular stop lever (363) and a clamping component (364), the two ends of the movable support rod (327) are symmetrically provided with the limiting component (361), the middle of the movable support rod (327) is provided with the clamping support rod (362) through a pin shaft, the triangular stop lever (363) is arranged between the limiting component (361) and the clamping support rod (362), the movable gear (328) is connected with the clamping support rod (362) through the pin shaft, and the two ends of the clamping support rod (362) are symmetrically provided with the clamping component (364).

3. The carbon fiber composite board molding processing method according to claim 2, characterized in that: the limiting assembly (361) comprises a limiting frame body (3611), two upper limiting blocks (3612) and two lower limiting blocks (3613), the upper limiting blocks (3612) are arranged on the upper portion inside the limiting frame body (3611) in a bilateral symmetry mode through strong springs, and the lower limiting blocks (3613) are arranged on the lower portion inside the limiting frame body (3611) in a bilateral symmetry mode through weak springs.

4. The carbon fiber composite board molding processing method according to claim 2, characterized in that: the clamping assembly (364) comprises a rear clamping plate (3641), a lower clamping block (3642), an upper clamping block (3643), a clamping connecting rod (3644), a spring telescopic rod (3645) and a clamping block (3646), the lower end of the rear clamping plate (3641) is provided with the lower clamping block (3642), the upper end of the rear clamping plate (3641) is connected with one end of the upper clamping block (3643) through a hinge, contraction grooves are formed in the inner surfaces of the rear clamping plate (3641) and the upper clamping block (3643), the lower end of the rear clamping plate (3641) is connected with one end of the clamping connecting rod (3644) through a hinge, the other end of the clamping connecting rod (3644) is connected with one end of the spring telescopic rod (3645) through a pin shaft, the other end of the upper clamping block (3643) is connected with the other end of the spring telescopic rod (3645) through a hinge, and the two sides of the contraction.

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