CN116394546B - Production equipment and production method for glass fiber reinforced plastic - Google Patents

Abstract

The invention relates to the technical field of glass fiber reinforced plastic molding, in particular to glass fiber reinforced plastic production equipment and a production method. According to the invention, the telescopic rod of the air cylinder can drive the pressing plate to move downwards and enable the pushing plate to move upwards, the glass fiber and the glass fiber product are molded through the cooperation of the pushing plate and the pressing plate, the U-shaped glass fiber reinforced plastic is manufactured, and the overall thickness of the produced U-shaped glass fiber reinforced plastic can be adjusted through rotating the rotating shaft and the first screw rod, so that the U-shaped glass fiber reinforced plastic is suitable for different production requirements.

Description

Production equipment and production method for glass fiber reinforced plastic

Technical Field

The invention relates to the technical field of glass fiber reinforced plastic molding, in particular to glass fiber reinforced plastic production equipment and a production method.

Background

The glass fiber reinforced plastic is a composite material with glass fiber and its product as reinforcing material and synthetic resin as matrix material, and has the features of heat preservation, sealing, sound insulation, corrosion resistance, shock absorption, etc. and is mainly used in building industry.

The glass fiber reinforced plastic is generally produced in an extrusion molding mode, most glass fiber reinforced plastic production equipment consists of an upper die, a lower die and a heating pipe, raw materials are placed between the upper die and the lower die, the raw materials are heated through the heating pipe to be softened, then the raw materials are extruded through the upper die and the lower die, the upper die and the lower die are integrally arranged, the structure cannot be changed, and the thickness of the produced glass fiber reinforced plastic is difficult to adjust, so that different production requirements can be met.

Disclosure of Invention

In order to overcome the defects that the upper die and the lower die are integrally arranged, the structure cannot be changed, and the thickness of the produced glass fiber reinforced plastic is difficult to adjust, so that different production requirements can be met, the invention aims to provide glass fiber reinforced plastic production equipment and a glass fiber reinforced plastic production method capable of adjusting the thickness of the produced glass fiber reinforced plastic and meeting different production requirements.

The utility model provides a glass steel production facility and production method, which comprises a workbench, soaking box, the mounting bracket, the cylinder, go up the mould, the clamp plate, first elastic component, the lower mould, the push pedal, the second elastic component, the pivot, the cam, first gear, first rack, first heating rod, the second heating rod, adjustment mechanism, placing mechanism, guiding mechanism and feed mechanism, the right part of workstation is connected with the soaking box that is used for splendid attire resin solution, the workstation top is connected with a plurality of mounting brackets, the mounting bracket top all is connected with the cylinder, the telescopic link sliding type of cylinder runs through the mounting bracket top, be connected with the upper mould between the telescopic link of cylinder, the sliding type of upper mould bottom even interval is equipped with polylith clamp plate, be connected with first elastic component between clamp plate and the upper mould, the workstation top is connected with the lower mould, the sliding type of lower mould top even interval is equipped with polylith push pedal, the number of the pushing plates is one more than that of the pressing plates, the pushing plates and the pressing plates are arranged in a staggered way, a second elastic piece is connected between the pushing plates and the lower die, the lower part of the mounting frame is rotationally connected with a rotating shaft, damping is arranged between the rotating shaft and the mounting frame, the rotating shaft is rotationally connected with the lower die, damping is arranged between the rotating shaft and the lower die, a plurality of cams used for pushing the pushing plates to move upwards are uniformly and alternately connected on the rotating shaft, the number of the cams on a single rotating shaft is consistent with that of the pushing plates, the cams rotate and can be contacted with the pushing plates, the front end and the rear end of the rotating shaft are respectively connected with a first gear, the front side and the rear side of the upper die are respectively connected with a plurality of first racks, the number of the first racks are consistent with that of the first gears, the first racks move downwards and are meshed with the first gears, a plurality of movable openings for the first racks to pass through are formed at the top of the workbench, and the number of the movable openings is consistent with the number of the first racks, all be connected with in the clamp plate and be used for carrying out the first heating rod that heats glass fiber and glass fiber goods, be connected with many second heating rods that are used for heating glass fiber and glass fiber goods in the lower mould, go up the mould top and be equipped with the adjustment mechanism who is used for adjusting glass steel's shaping thickness, the workstation top is equipped with the mechanism of placing that is used for placing glass fiber and glass fiber goods, the workstation top is equipped with the guiding mechanism that is used for carrying out the direction to glass fiber and glass fiber goods, the workstation top is equipped with and is used for moving glass fiber and glass fiber goods to the feed mechanism between last mould and the lower mould.

Optionally, adjustment mechanism is including movable rod, installing frame, baffle and first screw rod, and the clamp plate top all is connected with the movable rod, and the movable rod slidingtype is gone up the mould top, goes up the mould top and is connected with the installing frame, and the movable rod is located the installing frame, all slidingtype in the installing frame is equipped with the baffle, and the installing frame top all screw thread is equipped with first screw rod, and first screw rod bottom and baffle top swivelling joint.

Optionally, place the mechanism including the support frame, first place the pole, first place the wheel, the pole is placed to the second and the wheel is placed to the second, both sides all are connected with the support frame around the workstation top, the support frame is located the right side of soaking the case, the pole is placed to the rotation type between the support frame and is connected with first placing the pole and the second, the first evenly spaced is connected with the first wheel of placing that is used for placing glass fiber product on placing the pole, evenly spaced is connected with the second of placing the wheel that is used for placing glass fiber on the second placing the pole.

Optionally, guiding mechanism is including first guiding axle, first guiding wheel, the second guiding axle, the second guiding wheel, third guiding axle and third guiding wheel, workstation top rotation is connected with first guiding axle, first guiding axle is located between support frame and the soaking box, evenly spaced on the first guiding axle is connected with the first guiding wheel that is used for carrying out the direction to glass fiber and glass fiber goods, the rotation is connected with the second guiding axle in the soaking box, evenly spaced on the second guiding axle is connected with the second guiding wheel that is used for carrying out the direction to glass fiber and glass fiber goods, workstation top right side rotation is connected with many third guiding axles, the third guiding axle is located the left side of soaking box, all evenly spaced on the third guiding axle is connected with the third guiding wheel that is used for carrying out the direction to glass fiber and glass fiber goods.

Optionally, feed mechanism is including installing piece, electric guide rail, the guide block, the second screw rod, first splint, second splint and third elastic component, workstation top left and right sides all is connected with two installing pieces, be connected with electric guide rail between two relative installing pieces about, all the slidingtype be equipped with the guide block on the electric guide rail, the recess that supplies the guide block to pass through is all opened to the mounting bracket lower part, all the rotary type is connected with the second screw rod on the guide block, slidingtype be equipped with the first splint that are used for cliing glass fiber and glass fiber products between the guide block, first splint and second screw rod screw thread formula are connected, first splint bottom slidingtype be equipped with be used for with glass fiber and glass fiber products centre gripping second splint, be connected with the third elastic component between first splint and the second splint.

Optionally, still including being used for opening the mechanism that opens of first splint and second splint, open the mechanism including the riser, the connecting block, the contact block, first stopper, the second stopper, the contact lever, backup pad and bracing piece, both sides all are connected with the riser around the workstation top, the riser left side all is connected with the connecting block, one side that is close to each other on the connecting block all rotates and is connected with the contact block, one side right part that is close to each other on the contact block all is equipped with the breach, one side that is close to each other on the connecting block all is connected with first stopper and the second stopper that is used for carrying out spacing to the contact block, the contact block is located between first stopper and the second stopper, both sides all are connected with the contact lever around the second splint, the contact lever moves right and can be contacted with the contact block, be connected with the backup pad that is used for supporting glass fiber and glass fiber product between the riser, the backup pad left side is connected with the multiunit and is used for supporting glass fiber and glass fiber product, every group has two spinal branch vaulting poles, the multiunit holding tank is opened on the second splint right side, every group has two holding tanks, the group number of holding tank is unanimous with the group number of bracing piece.

Optionally, the device further comprises a pressing mechanism for pressing the glass fiber and the glass fiber product, the pressing mechanism comprises a third screw rod and a pressing plate, the third screw rod is arranged on the vertical plate in a threaded mode, and the pressing plate for pressing the glass fiber and the glass fiber product is connected between the third screw rods in a rotary mode.

Optionally, the device further comprises a descending mechanism, wherein the descending mechanism comprises a second rack, a second gear and a wedge block, the second racks are connected to the upper parts of the left mounting blocks, the second gears are connected to the second screws, the second gears move leftwards and are meshed with the second racks, the wedge blocks are connected to the second racks, and the contact rods move leftwards and are contacted with the wedge blocks.

The invention also provides a production method for the glass fiber reinforced plastic production equipment, which comprises the following steps:

s1: the rotating shaft is rotated positively and negatively alternately to drive the cam to rotate positively and negatively alternately, and the distance between the farthest end of the cam and the push plate is adjusted, so that the overall thickness of the produced U-shaped glass fiber reinforced plastic is adjusted;

S2: winding a glass fiber product on a first placing wheel, winding glass fibers on a second placing wheel, pulling out the glass fibers and the glass fiber product, sequentially winding the glass fibers and the glass fiber product around a first guide wheel, a second guide wheel and a third guide wheel, pouring a resin solution into a soaking box, and soaking the glass fibers and the glass fiber product in the resin solution;

s3: pushing the second clamping plate downwards to open the first clamping plate and the second clamping plate, then placing the glass fiber and the glass fiber product between the first clamping plate and the second clamping plate, loosening the second clamping plate, and upwards moving the second clamping plate to clamp the glass fiber and the glass fiber product;

s4: controlling the electric guide rail to drive the guide block to move leftwards, so as to drive the first clamping plate and the second clamping plate to move leftwards, and the first clamping plate and the second clamping plate pull the glass fiber and the glass fiber product leftwards, so that the glass fiber and the glass fiber product are pulled between the upper die and the lower die;

s5: and starting the first heating rod and the second heating rod to heat the glass fiber and the glass fiber product, softening the glass fiber and the glass fiber product, controlling the extension rod of the air cylinder to extend, driving the pressing plate to move downwards, enabling the pushing plate to move upwards, forming the glass fiber and the glass fiber product through the cooperation of the pushing plate and the pressing plate, and manufacturing the U-shaped glass fiber reinforced plastic.

The invention has the beneficial effects that: 1. according to the invention, the telescopic rod of the air cylinder can drive the pressing plate to move downwards and enable the pushing plate to move upwards, the glass fiber and the glass fiber product are molded through the cooperation of the pushing plate and the pressing plate, the U-shaped glass fiber reinforced plastic is manufactured, and the overall thickness of the produced U-shaped glass fiber reinforced plastic can be adjusted through rotating the rotating shaft and the first screw rod, so that the U-shaped glass fiber reinforced plastic is suitable for different production requirements.

2. The first guide wheel, the second guide wheel and the third guide wheel can guide glass fibers and glass fiber products, so that the glass fibers and the glass fiber products are tidier, and the disorder of the glass fibers and the glass fiber products is avoided.

3. When first splint and second splint move to the right, can drive the contact lever and move to the right, the contact piece can make contact lever and second splint downwardly moving, opens first splint and second splint, and the breach department of contact piece is moved to the contact lever afterwards for the second splint upwards moves, and is automatic to clip glass fiber and glass fiber products, reduces manual operation, and it is more convenient to use.

4. The third screw rod is rotated to move downwards to drive the pressing plate to move downwards, so that the glass fibers and glass fiber products are pressed, the glass fibers and the glass fiber products are prevented from loosening, and the glass fiber products are convenient for workers to cut.

5. The first splint and the second splint move left, can drive second gear and contact bar and move left, and the wedge can make second splint downwardly moving, loosens glass fiber and glass fiber products, and the second rack can make the second screw rod rotate, makes the height of first splint be less than the lower mould, so alright automatic loosen glass fiber and glass fiber products to can automatic drop first splint, reduce manual operation, it is more convenient to use.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a platen, a push plate, a first heating rod and a second heating rod according to the present invention.

Fig. 3 is a schematic perspective view of the structure of the pressing plate, the first elastic member, the pushing plate and the second elastic member according to the present invention.

Fig. 4 is a schematic perspective view of the rotating shaft, the cam and the first gear according to the present invention.

Fig. 5 is a schematic perspective view of the scale mark, pointer and rectangular groove of the present invention.

Fig. 6 is a schematic perspective view of an adjusting mechanism according to the present invention.

Fig. 7 is a schematic perspective view of the placement mechanism and the guide mechanism of the present invention.

Fig. 8 is a schematic perspective view of the placement mechanism of the present invention.

Fig. 9 is a schematic perspective view of the guide mechanism of the present invention.

Fig. 10 is a schematic diagram of a first three-dimensional structure of the feeding mechanism of the present invention.

Fig. 11 is a schematic view of a second three-dimensional structure of the feeding mechanism of the present invention.

Fig. 12 is a schematic view of a first perspective of the opening mechanism of the present invention.

Fig. 13 is a schematic view of a second perspective of the opening mechanism of the present invention.

Fig. 14 is a schematic view of a third perspective of the opening mechanism of the present invention.

Figure 15 is a schematic perspective view of the hold down mechanism of the present invention.

Fig. 16 is a schematic view showing a first perspective structure of the descent mechanism of the present invention.

Fig. 17 is a schematic view showing a second perspective structure of the descent mechanism of the present invention.

The marks of the components in the drawings are as follows: 1_table, 2_soak tank, 3_mount, 4_cylinder, 5_upper die, 6_platen, 7_first elastic member, 8_lower die, 9_push plate, 10_second elastic member, 11_rotation shaft, 12_cam, 13_first gear, 14_first rack, 15_first heating rod, 16_second heating rod, 17_adjustment mechanism, 171_moving rod, 172_mounting frame, 173_shutter, 174_first screw, 18_placement mechanism, 181_support frame, 182_first placement rod, 183_first placement wheel, 184_second placement rod, 185_second placement wheel, 19_guide mechanism, 191_first guide shaft, 192_first guide wheel, 193_second guide shaft, 194_second guide wheel, 195_third guide shaft, 196_third guide shaft, 20_feeding mechanism, 201_mounting block, 202_electric guide rail, 203_guide block, 204_second screw, 205_first clamping plate, 206_second clamping plate, 207_third elastic member, 21_opening mechanism, 211_riser, 212_connecting block, 213_contact block, 214_first stopper, 215_second stopper, 216_contact rod, 217_support plate, 218_support rod, 22_hold down mechanism, 221_third screw, 222_hold down plate, 23_descent mechanism, 231_second rack, 232_second gear, 233_wedge.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

1-11, including a working table 1, a soaking box 2, a mounting frame 3, an air cylinder 4, an upper die 5, a pressing plate 6, a first elastic piece 7, a lower die 8, a pushing plate 9, a second elastic piece 10, a rotating shaft 11, a cam 12, a first gear 13, a first rack 14, a first heating rod 15, a second heating rod 16, an adjusting mechanism 17, a placing mechanism 18, a guiding mechanism 19 and a feeding mechanism 20, wherein the right part of the working table 1 is connected with the soaking box 2 through bolts, the soaking box 2 is used for containing resin solution, the top of the working table 1 is uniformly and alternately connected with three mounting frames 3 through bolts, the mounting frames 3 are n-shaped, the middle of the top of each mounting frame 3 is connected with the air cylinder 4 through bolts, a telescopic rod of the air cylinder 4 penetrates through the middle of the top of the mounting frame 3 in a sliding mode, the upper die 5 is connected between the bottom ends of telescopic rods of the air cylinder 4 through bolts, seven pressing plates 6 are arranged at the bottom of the upper die 5 at equal intervals in a sliding mode, four first elastic pieces 7 are connected between the top of the pressing plates 6 and the upper die 5 at equal intervals, the first elastic pieces 7 are positioned in the upper die 5, the first elastic pieces 7 are springs, the top of the workbench 1 is connected with a lower die 8 through bolts, eight pushing plates 9 are arranged at the top of the lower die 8 at equal intervals in a sliding mode, the pushing plates 9 and the pressing plates 6 are arranged in a staggered mode, four second elastic pieces 10 are connected between the bottom of the pushing plates 9 and the lower die 8 at equal intervals, the second elastic pieces 10 are positioned in the lower die 8, the second elastic pieces 10 are springs, the lower part on the right side of the mounting frame 3 is rotationally connected with a rotating shaft 11, damping is arranged between the rotating shaft 11 and the lower die 8, a circle of scale marks are arranged on the lower part on the front side of the mounting frame 3, the scale marks encircle the rotating shaft 11, pointers are arranged on the rotating shaft 11, the rear sides of the pointers are contacted with the lower part of the front side of the mounting frame 3, rectangular grooves are formed in the front end of the rotating shaft 11, eight cams 12 are connected to the rotating shaft 11 at equal intervals, the front end and the rear end of the rotating shaft 11 are connected with first gears 13 through keys, three first racks 14 are connected to the front side and the rear side of the upper die 5, three movable openings for the first racks 14 to pass through are formed in the front side and the rear side of the top of the workbench 1, the first racks 14 move downwards and are meshed with the first gears 13 and drive the first gears 13 to rotate clockwise, the first gears 13 drive the rotating shaft 11 to rotate clockwise, the cams 12 drive the cams 12 to rotate clockwise, the push plates 9 are pushed to move upwards by the cams 12, first heating rods 15 are connected to the inside of the pressing plate 6, seven second heating rods 16 are uniformly spaced in the lower die 8 and are connected, the second heating rods 16 are positioned between two adjacent pushing plates 9, the first heating rods 15 and the second heating rods 16 are used for heating glass fibers and glass fiber products, an adjusting mechanism 17 is arranged at the top of the upper die 5, the adjusting mechanism 17 is used for adjusting the forming thickness of the glass fibers, a placing mechanism 18 is arranged at the top of the workbench 1, the placing mechanism 18 is used for placing the glass fibers and the glass fiber products, a guiding mechanism 19 is arranged at the top of the workbench 1, the guiding mechanism 19 is used for guiding the glass fibers and the glass fiber products, a feeding mechanism 20 is arranged at the top of the workbench 1, and the feeding mechanism 20 is used for moving the glass fibers and the glass fiber products between the upper die 5 and the lower die 8.

As shown in fig. 1 and 6, the adjusting mechanism 17 includes a moving rod 171, a mounting frame 172, a baffle 173 and a first screw 174, wherein the left side and the right side of the top of the pressing plate 6 are respectively connected with the moving rod 171, the moving rod 171 penetrates through the top of the upper die 5 in a sliding manner, the left side and the right side of the top of the upper die 5 are respectively connected with the mounting frame 172 through bolts, the moving rod 171 is located in the mounting frame 172, the baffle 173 is respectively arranged in the mounting frame 172 in a sliding manner, the baffle 173 can slide up and down in the mounting frame 172, the first screw 174 is respectively arranged in the middle of the top of the mounting frame 172 in a threaded manner, and the bottom end of the first screw 174 is rotationally connected with the top of the baffle 173.

As shown in fig. 1, 7 and 8, the placing mechanism 18 comprises a supporting frame 181, a first placing rod 182, a first placing wheel 183, a second placing rod 184 and a second placing wheel 185, wherein the front side and the rear side of the right side of the top of the workbench 1 are respectively connected with the supporting frame 181 through bolts, the supporting frame 181 is positioned on the right side of the soaking box 2, the first placing rods 182 are rotatably connected between the lower parts of the supporting frames 181, the first placing wheels 183 are uniformly spaced on the first placing rods 182 and are used for placing glass fiber products, the second placing rods 184 are rotatably connected between the upper parts of the supporting frames 181, the second placing wheels 185 are uniformly spaced on the second placing rods 184 and are used for placing glass fibers.

As shown in fig. 1, 7 and 9, the guiding mechanism 19 includes a first guiding shaft 191, a first guiding wheel 192, a second guiding shaft 193, a second guiding wheel 194, a third guiding shaft 195 and a third guiding wheel 196, the right side of the top of the workbench 1 is rotatably connected with the first guiding shaft 191 through a bearing seat, the first guiding shaft 191 is located between the supporting frame 181 and the soaking box 2, the first guiding shaft 191 is uniformly and alternately connected with the first guiding wheel 192, the lower part in the soaking box 2 is rotatably connected with the second guiding shaft 193, the second guiding shaft 193 is uniformly and alternately connected with the second guiding wheel 194, the right side of the top of the workbench 1 is rotatably connected with two third guiding shafts 195 through the bearing seat, the third guiding shafts 195 are located on the left side of the soaking box 2, the two third guiding shafts 195 are oppositely arranged left and right, the third guiding shafts 195 are uniformly and alternately connected with the third guiding wheels 196, and the first guiding wheels 192, the second guiding wheels 194 and the third guiding wheels 196 are used for guiding glass fibers and glass fiber products.

As shown in fig. 1, 10 and 11, the feeding mechanism 20 comprises mounting blocks 201, electric guide rails 202, guide blocks 203, second screw rods 204, first clamping plates 205, second clamping plates 206 and third elastic pieces 207, wherein two mounting blocks 201 are connected to the left side and the right side of the top of the workbench 1 through bolts, the electric guide rails 202 are connected between the two mounting blocks 201 which are opposite left and right, the electric guide rails 202 are provided with the guide blocks 203 in a sliding mode, grooves for the guide blocks 203 to pass through are formed in the lower portions of the mounting frames 3, the guide blocks 203 are connected with second screw rods 204 in a rotating mode, the second screw rods 204 are arranged vertically, first clamping plates 205 are arranged between the guide blocks 203 in a sliding mode, the first clamping plates 205 can slide up and down in the guide blocks 203, the first clamping plates 205 are connected with the second clamping plates 206 in a sliding mode, the first clamping plates 205 and the second clamping plates 206 are used for clamping glass fibers and glass fiber products, the front side and the rear side of the right side of the first clamping plates 205 are connected with third elastic pieces 207, the bottom ends of the third elastic pieces 207 are connected with the second clamping plates 206 in a sliding mode, and the right side of the third clamping plates are connected with the third clamping plates 206.

The equipment can produce the U-shaped glass fiber reinforced plastic, a worker can adjust the whole thickness of the produced U-shaped glass fiber reinforced plastic according to actual production requirements, the rotating shaft 11 is rotated in a positive and negative alternating manner, the cam 12 is driven to rotate in a positive and negative alternating manner, the distance between the farthest end of the cam 12 and the push plate 9 is adjusted, the longer the distance between the farthest end of the cam 12 and the push plate 9 is, the shorter the distance of the farthest end of the cam 12 pushing the push plate 9 to move upwards is, the thinner the whole thickness of the produced U-shaped glass fiber reinforced plastic is, the longer the distance of the farthest end of the cam 12 pushing the push plate 9 to move upwards is, the whole thickness of the produced U-shaped glass fiber reinforced plastic is adjusted, so that the rotating angle of the rotating shaft 11 can be known through a scale mark and a pointer according to different production requirements, therefore, the distance between the farthest end of the cam 12 and the push plate 9 can be accurately adjusted, a tool can be inserted into a rectangular groove to rotate the rotating shaft 11, more labor is saved, after the overall thickness of the produced U-shaped glass fiber reinforced plastic is adjusted, the rotating shaft 11 stops rotating, damping exists between the rotating shaft 11 and the mounting frame 3, damping exists between the rotating shaft 11 and the lower die 8, the rotating shaft 11 cannot easily rotate, the phenomenon that the distance between the farthest end of the cam 12 and the push plate 9 changes due to rotation of the rotating shaft 11 is avoided, the first screw 174 is alternately rotated positively and negatively to drive the baffle 173 to move up and down, the distance between the baffle 173 and the moving rod 171 is adjusted, the shorter the distance between the baffle 173 and the moving rod 171 is, the larger the downward moving distance of the moving rod 171 is, the thickness of the lower part of the produced U-shaped glass fiber reinforced plastic is thinner, and conversely, the longer the distance between the baffle 173 and the moving rod 171 is smaller the downward moving distance is, the thickness of the lower part of the produced U-shaped glass fiber reinforced plastic is thicker, the thickness of three sides of the produced U-shaped glass fiber reinforced plastic is kept consistent, after the overall thickness of the U-shaped glass fiber reinforced plastic is regulated, a worker winds glass fiber products on the first placing wheel 183, winds glass fibers on the second placing wheel 185, pulls out the glass fibers and the glass fiber products, sequentially winds the glass fibers and the glass fiber products around the first guide wheel 192, the second guide wheel 194 and the third guide wheel 196, then the resin solution is poured into the soaking box 2, the glass fibers and the glass fiber products are soaked in the resin solution, the worker pushes the second clamping plate 206 downwards, the first clamping plate 205 and the second clamping plate 206 are opened, the third elastic piece 207 stretches, then the glass fibers and the glass fiber products are placed between the first clamping plate 205 and the second clamping plate 206, the second clamping plate 206 is loosened, the second clamping plate 206 moves upwards under the action of the third elastic member 207, so that the first clamping plate 205 and the second clamping plate 206 are closed, the glass fiber and the glass fiber product are clamped, then the electric guide rail 202 is controlled to drive the guide block 203 to move leftwards, the guide block 203 drives the first clamping plate 205 and the second clamping plate 206 to move leftwards, the first clamping plate 205 and the second clamping plate 206 pull the glass fiber and the glass fiber product leftwards, the glass fiber and the glass fiber product are pulled between the upper die 5 and the lower die 8, when the first clamping plate 205 and the second clamping plate 206 move to the left side of the lower die 8, the electric guide rail 202 is closed, then the second clamping plate 206 is pushed downwards, the glass fiber and the glass fiber product are loosened, the glass fiber and the glass fiber product are taken out from between the first clamping plate 205 and the second clamping plate 206, then the second clamping plate 206 is loosened, the worker rotates the second screw 204 again, the second screw 204 drives the first clamping plate 205 to move downwards, so that the height of the first clamping plate 205 is lower than that of the lower die 8, the produced U-shaped glass fiber reinforced plastic is conveniently taken out, then the first heating rod 15 and the second heating rod 16 are started to heat glass fibers and glass fiber products, the glass fibers and the glass fiber products are softened, then the telescopic rod of the air cylinder 4 is controlled to stretch, the upper die 5 and the pressing plate 6 are driven to move downwards, the upper die 5 drives the first rack 14 to move downwards, when the pressing plate 6 moves downwards to be in contact with the glass fibers and the glass fiber products, the moving rod 171 and the pressing plate 6 stop moving downwards, the baffle 173 and the upper die 5 continue moving downwards, the first elastic piece 7 is compressed, when the baffle 173 moves downwards and the moving rod 171 is in contact, the baffle 173 pushes the moving rod 171 and the pressing plate 6 to move downwards, so that the pressing plate 6 can squeeze the glass fibers and the glass fiber products, then the first rack 14 moves downwards to be meshed with the first gear 13 and drives the first gear 13 to rotate clockwise, the first gear 13 drives the rotating shaft 11 to rotate clockwise, the rotating shaft 11 drives the cam 12 to rotate clockwise, the most distal end of the cam 12 pushes the push plate 9 to move upwards, the push plate 9 moves upwards to push glass fibers and glass fiber products, the second elastic piece 10 stretches, the glass fibers and the glass fiber products are molded through the cooperation of the push plate 9 and the pressing plate 6 to form U-shaped glass fiber reinforced plastics, when the upper die 5 moves downwards to be contacted with the push plate 9, the cylinder 4, the first heating rod 15 and the second heating rod 16 are closed, then the telescopic rod of the cylinder 4 is controlled to be shortened, the upper die 5 is driven to move upwards, the upper die 5 drives the first rack 14 to move upwards, the first rack 14 drives the first gear 13 to rotate anticlockwise, the first gear 13 drives the rotating shaft 11 to rotate anticlockwise, the rotating shaft 11 drives the cam 12 to rotate anticlockwise, the farthest end of the cam 12 is gradually not contacted with the push plate 9, the push plate 9 moves downwards under the action of the second elastic piece 10, meanwhile, the first elastic piece 7 slowly returns to the original state, when the first elastic piece 7 completely returns to the original state, the first elastic piece 7 drives the pressing plate 6 to move upwards, after the upper die 5 moves upwards to reset, the cylinder 4 is closed, the produced U-shaped glass fiber reinforced plastic is taken out, the second screw 204 is reversely rotated, the second screw 204 drives the first clamping plate 205 to move upwards, the height of the first clamping plate 205 is higher than that of the lower die 8, then the electric guide rail 202 is controlled to drive the guide block 203 to move rightwards, the first clamping plate 205 and the second clamping plate 206 are driven to move rightwards, when the first clamping plate 205 and the second clamping plate 206 move rightwards to the right of the lower die 8, the electric guide rail 202 is closed, then the operation is repeated, and the U-shaped glass fiber reinforced plastic is continuously produced.

Example two

On the basis of the first embodiment, as shown in fig. 1, 12, 13 and 14, the device further comprises an opening mechanism 21 for opening the first clamping plate 205 and the second clamping plate 206, the opening mechanism 21 comprises a vertical plate 211, a connecting block 212, a contact block 213, a first limiting block 214, a second limiting block 215, a contact rod 216, a supporting plate 217 and a supporting rod 218, the vertical plate 211 is connected with the front side and the rear side of the top of the workbench 1 through bolts, the upper part of the left side of the vertical plate 211 is connected with the connecting block 212 through bolts, one side of the connecting block 212, which is close to each other, is rotatably connected with the contact block 213, the right part of one side of the contact block 213, which is close to each other, is provided with a notch, one side of the connecting block 212, which is close to each other, is connected with the first limiting block 214 and the second limiting block 215, the first limiting block 214 is positioned below the second limiting block 215, the contact block 213 is located between the first limiting block 214 and the second limiting block 215, the first limiting block 214 and the second limiting block 215 are used for limiting the contact block 213, the front side and the rear side of the second clamping plate 206 are both connected with contact rods 216, the contact rods 216 move rightwards to be in contact with the contact block 213, then the contact rods 216 continue to move rightwards, the contact rods 216 move downwards, the second clamping plate 206 moves downwards, the first clamping plate 205 and the second clamping plate 206 are opened, a supporting plate 217 is connected between the vertical plates 211, a plurality of groups of supporting rods 218 are uniformly spaced on the left side of the supporting plate 217, the supporting plate 217 and the supporting rods 218 are used for supporting glass fibers and glass fiber products, each group is provided with two supporting rods 218, a plurality of groups of accommodating grooves are uniformly spaced on the right side of the second clamping plate 206, each group is provided with two accommodating grooves, the groups of the accommodating grooves are consistent with the groups of the supporting rods 218, the second clamping plate 206 does not collide with the support bar 218.

After the glass fiber and the glass fiber product sequentially bypass the first guide wheel 192, the second guide wheel 194 and the third guide wheel 196, the glass fiber and the glass fiber product are put on the supporting plate 217 and the supporting rod 218, the supporting plate 217 and the supporting rod 218 support the glass fiber and the glass fiber product, when the electric guide rail 202 drives the first clamping plate 205 and the second clamping plate 206 to move rightwards, the contact rod 216 is driven to move rightwards, when the contact rod 216 moves rightwards and contacts the contact block 213, the first limiting block 214 limits the contact block 213, the contact block 213 cannot rotate clockwise, the contact rod 216 continues to move rightwards, the contact rod 216 moves downwards, the second clamping plate 206 moves downwards, the third elastic piece 207 stretches, the first clamping plate 205 and the second clamping plate 206 are opened, the second clamping plate 206 cannot collide with the supporting rod 218 under the action of the containing groove, then the glass fiber and glass fiber products are positioned between the first clamping plate 205 and the second clamping plate 206, when the contact rod 216 moves to the right side of the axis position of the contact block 213, the second clamping plate 206 and the contact rod 216 move upwards under the action of the third elastic piece 207, the contact rod 216 pushes the contact block 213 to enable the contact block 213 to rotate anticlockwise, the second limiting block 215 limits the contact block 213 and limits the anticlockwise rotation angle of the contact block 213, so that the second clamping plate 206 and the contact rod 216 cannot move upwards for resetting, when the contact rod 216 moves to the notch of the contact block 213, the second clamping plate 206 and the contact rod 216 move upwards under the action of the third elastic piece 207 for resetting, the glass fiber and glass fiber products are clamped automatically, manual operation is reduced, the use is more convenient, then the electric guide rail 202 is controlled to drive the first clamping plate 205 and the second clamping plate 206 to move leftwards to drive the contact rod 216 to move leftwards, when the contact rod 216 moves leftwards to contact with the contact block 213, the contact rod 216 pushes the contact block 213 to enable the contact block 213 to rotate anticlockwise, when the contact rod 216 moves leftwards to pass over the contact block 213, the contact block 213 rotates clockwise under the action of self gravity, and the first limiting block 214 limits the contact block 213.

As shown in fig. 15, the device further comprises a pressing mechanism 22 for pressing the glass fiber and the glass fiber product, the pressing mechanism 22 comprises a third screw 221 and a pressing plate 222, the upper part of the vertical plate 211 is provided with the third screw 221 in a threaded manner, the third screw 221 is vertically arranged, the pressing plate 222 is rotatably connected between the bottom ends of the third screw 221, and the pressing plate 222 is used for pressing the glass fiber and the glass fiber product.

When the first clamping plate 205 and the second clamping plate 206 pull the glass fiber and the glass fiber product between the upper die 5 and the lower die 8, a worker can rotate the third screw rod 221 to move downwards to drive the pressing plate 222 to move downwards to press the glass fiber and the glass fiber product, so that the glass fiber and the glass fiber product are prevented from loosening, the worker can conveniently cut the glass fiber and the glass fiber product, and the third screw rod 221 can be rotated to move upwards to drive the pressing plate 222 to move upwards to loosen the glass fiber and the glass fiber product.

As shown in fig. 1, 16 and 17, the device further comprises a descending mechanism 23, the descending mechanism 23 comprises a second rack 231, a second gear 232 and a wedge-shaped block 233, the upper right part of the left mounting block 201 is connected with the second rack 231 through bolts, the top ends of the second screws 204 are connected with the second gear 232, the second gear 232 moves leftwards and is meshed with the second rack 231, then the second gear 232 continues to move leftwards, the second gear 232 rotates on the second rack 231, the second gear 232 drives the second screw 204 to rotate, the second screw 204 drives the first clamping plate 205 to move downwards, the height of the first clamping plate 205 is lower than that of the lower die 8, the side, away from each other, of the second rack 231 is connected with a wedge-shaped block 233, the contact rod 216 moves leftwards to be in contact with the wedge-shaped block 233, and then the contact rod 216 continues to move leftwards, so that the contact rod 216 moves downwards, and the second clamping plate 206 can move downwards to loosen glass fibers and glass fiber products.

The electric guide rail 202 drives the first clamping plate 205 and the second clamping plate 206 to move leftwards, the second gear 232 and the contact rod 216 are driven to move leftwards, when the contact rod 216 moves leftwards and contacts the wedge-shaped block 233, the contact rod 216 continues to move leftwards, so that the contact rod 216 moves downwards, the second clamping plate 206 can be enabled to move downwards, glass fibers and glass fiber products are loosened, then the second gear 232 moves leftwards to be meshed with the second rack 231, the second gear 232 continues to move leftwards, the second gear 232 rotates on the second rack 231, the second gear 232 drives the second screw 204 to rotate, the second screw 204 drives the first clamping plate 205 to move downwards, the height of the first clamping plate 205 is lower than that of the lower die 8, so that glass fibers and glass fiber products can be loosened automatically, and the first clamping plate 205 can be automatically lowered, manual operation is reduced, the electric guide rail 202 drives the first clamping plate 205 and the second clamping plate 206 to move rightwards, the second gear 232 and the second clamping plate 216 are driven to move rightwards when the second screw 232 moves rightwards, the second screw 204 is driven to rotate on the second rack 231, the second screw 205 is driven to rotate upwards, and the first clamping plate 205 is driven to move rightwards, and the height of the second clamping plate 216 is not higher than that the lower than that the contact rod 233 moves rightwards, and the second clamping plate 206 moves upwards, and the contact rod is enabled to move upwards, and the contact rod is not contacted with the lower die 206, so that the first clamping plate 205 moves upwards and moves upwards, and the height of the second clamping plate is enabled to move upwards, and has the height is not contacted with the upper die, and has the upper lifting device, and has the lifting device.

The invention also provides a production method for the glass fiber reinforced plastic production equipment, which comprises the following steps:

s1: the rotating shaft 11 is rotated in a positive and negative alternate mode, the cam 12 is driven to rotate in a positive and negative alternate mode, the distance between the farthest end of the cam 12 and the push plate 9 is adjusted, and therefore the overall thickness of the produced U-shaped glass fiber reinforced plastic is adjusted, the first screw 174 is rotated in a positive and negative alternate mode, the baffle 173 is driven to move up and down, the distance between the baffle 173 and the moving rod 171 is adjusted, the thickness of the lower portion of the produced U-shaped glass fiber reinforced plastic is adjusted, and the thickness of three sides of the produced U-shaped glass fiber reinforced plastic is kept consistent;

s2: winding the glass fiber product on the first placing wheel 183, winding the glass fiber on the second placing wheel 185, pulling out the glass fiber and the glass fiber product, sequentially winding the glass fiber and the glass fiber product around the first guiding wheel 192, the second guiding wheel 194 and the third guiding wheel 196, and pouring the resin solution into the soaking box 2, wherein the glass fiber and the glass fiber product are soaked in the resin solution;

s3: pushing down on the second clamping plate 206 to open the first clamping plate 205 and the second clamping plate 206, then placing the glass fiber and the glass fiber product between the first clamping plate 205 and the second clamping plate 206, loosening the second clamping plate 206, and moving the second clamping plate 206 upwards to clamp the glass fiber and the glass fiber product;

S4: the electric guide rail 202 is controlled to drive the guide block 203 to move leftwards, so that the first clamping plate 205 and the second clamping plate 206 are driven to move leftwards, and the first clamping plate 205 and the second clamping plate 206 pull glass fibers and glass fiber products leftwards, so that the glass fibers and the glass fiber products are pulled between the upper die 5 and the lower die 8;

s5: the first heating rod 15 and the second heating rod 16 are started to heat the glass fiber and the glass fiber product, so that the glass fiber and the glass fiber product are softened, then the expansion rod of the air cylinder 4 is controlled to extend, the pressing plate 6 is driven to move downwards, the pushing plate 9 is driven to move upwards, and the glass fiber product are molded through the cooperation of the pushing plate 9 and the pressing plate 6, so that the U-shaped glass fiber reinforced plastic is manufactured.

While the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made therein without departing from the spirit and scope of the invention as defined in the following claims. Accordingly, the detailed description of the disclosed embodiments is to be taken only by way of illustration and not by way of limitation, and the scope of protection is defined by the content of the claims.

Claims (7)

1. The utility model provides a be used for glass steel production facility, including workstation (1) and soaking case (2), workstation (1) right part is connected with soaking case (2) that are used for splendid attire resin solution, a serial communication port, still including mounting bracket (3), cylinder (4), go up mould (5), clamp plate (6), first elastic component (7), lower mould (8), push pedal (9), second elastic component (10), pivot (11), cam (12), first gear (13), first rack (14), first heating rod (15), second heating rod (16), adjustment mechanism (17), placing mechanism (18), guiding mechanism (19) and feed mechanism (20), workstation (1) top is connected with a plurality of mounting bracket (3), mounting bracket (3) top all is connected with cylinder (4), telescopic link sliding throughout mounting bracket (3) top of cylinder (4), be connected with between the telescopic link of cylinder (4), go up mould (5) bottom evenly spaced sliding is equipped with polylith (6), be connected with between clamp plate (6) and last mould (5) first elastic component (7), workstation (8) are connected with top (8), the sliding type pushing plates (9) are arranged at the top of the lower die (8) at equal intervals, the number of the pushing plates (9) is one more than that of the pressing plates (6), the pushing plates (9) and the pressing plates (6) are arranged in a staggered mode, a second elastic piece (10) is connected between the pushing plates (9) and the lower die (8), the lower portion of the mounting frame (3) is rotationally connected with a rotating shaft (11), damping is arranged between the rotating shaft (11) and the mounting frame (3), the rotating shaft (11) is rotationally connected with the lower die (8), damping is arranged between the rotating shaft (11) and the lower die (8), a plurality of cams (12) for pushing the pushing plates (9) to move upwards are uniformly arranged on the rotating shaft (11), the number of cams (12) on a single rotating shaft (11) is consistent with the number of pushing plates (9), the cams (12) rotate to be in contact with the pushing plates (9), the front end and the rear end of the rotating shaft (11) are respectively connected with first gears (13), the front side and the rear side of an upper die (5) are respectively connected with a plurality of first racks (14), the number of the first racks (14) is consistent with the number of the first gears (13), the first racks (14) move downwards to be meshed with the first gears (13), a plurality of movable openings for the first racks (14) to pass through are formed in the top of the workbench (1), the number of the movable openings is consistent with the number of the first racks (14), the press plate (6) is internally connected with a first heating rod (15) for heating glass fibers and glass fiber products, the lower die (8) is internally connected with a plurality of second heating rods (16) for heating the glass fibers and the glass fiber products, the top of the upper die (5) is provided with an adjusting mechanism (17) for adjusting the forming thickness of glass fiber reinforced plastics, the top of the workbench (1) is provided with a placing mechanism (18) for placing the glass fibers and the glass fiber products, the top of the workbench (1) is provided with a guiding mechanism (19) for guiding the glass fibers and the glass fiber products, and the top of the workbench (1) is provided with a feeding mechanism (20) for moving the glass fibers and the glass fiber products between the upper die (5) and the lower die (8);

The feeding mechanism (20) comprises mounting blocks (201), electric guide rails (202), guide blocks (203), second screw rods (204), first clamping plates (205), second clamping plates (206) and third elastic pieces (207), wherein two mounting blocks (201) are connected to the left side and the right side of the top of the workbench (1), the electric guide rails (202) are connected between the two mounting blocks (201) which are opposite to each other, the guide blocks (203) are arranged on the electric guide rails (202) in a sliding mode, grooves for the guide blocks (203) to pass through are formed in the lower portions of the mounting frames (3), the second screw rods (204) are connected to the guide blocks (203) in a rotating mode, first clamping plates (205) for clamping glass fibers and glass fiber products are arranged between the guide blocks (203), the first clamping plates (205) are connected with the second screw rods (204) in a threaded mode, second clamping plates (206) for clamping the glass fibers and the glass fiber products are arranged at the bottoms of the first clamping plates (205), and third elastic pieces (207) are connected between the first clamping plates (205);

the utility model also comprises an opening mechanism (21) for opening the first clamping plate (205) and the second clamping plate (206), the opening mechanism (21) comprises a vertical plate (211), a connecting block (212), a contact block (213), a first limiting block (214), a second limiting block (215), a contact rod (216), a supporting plate (217) and a supporting rod (218), the vertical plate (211) is connected with the front side and the rear side of the top of the workbench (1), the connecting block (212) is connected with the left side of the vertical plate (211), one sides of the connecting block (212) close to each other are respectively connected with the contact block (213) in a rotating way, the right part of one sides of the contact blocks (213) close to each other is provided with a notch, one side of the connecting block (212) which is close to each other is connected with a first limiting block (214) and a second limiting block (215) which are used for limiting the contact block (213), the contact block (213) is positioned between the first limiting block (214) and the second limiting block (215), the front side and the rear side of the second clamping plate (206) are connected with contact rods (216), the contact rods (216) move rightwards to be contacted with the contact block (213), a supporting plate (217) used for supporting glass fibers and glass fiber products is connected between the vertical plates (211), the left side of the supporting plate (217) is connected with a plurality of groups of supporting rods (218) used for supporting the glass fibers and the glass fiber products, each group is provided with two supporting rods (218), the right side of the second clamping plate (206) is provided with a plurality of groups of containing grooves, each group is provided with two containing grooves, and the number of the containing grooves is consistent with that of the supporting rods (218).

2. The glass fiber reinforced plastic production equipment according to claim 1, wherein the adjusting mechanism (17) comprises a moving rod (171), a mounting frame (172), a baffle plate (173) and a first screw (174), the moving rod (171) is connected to the top of the pressing plate (6), the moving rod (171) penetrates through the top of the upper die (5) in a sliding mode, the mounting frame (172) is connected to the top of the upper die (5), the moving rod (171) is located in the mounting frame (172), the baffle plate (173) is arranged in the mounting frame (172) in a sliding mode, the first screw (174) is arranged on the top of the mounting frame (172) in a threaded mode, and the bottom end of the first screw (174) is connected with the top of the baffle plate (173) in a rotating mode.

3. The device for producing glass fiber reinforced plastic according to claim 2, wherein the placing mechanism (18) comprises a supporting frame (181), a first placing rod (182), a first placing wheel (183), a second placing rod (184) and a second placing wheel (185), the supporting frame (181) is connected to the front side and the rear side of the top of the workbench (1), the supporting frame (181) is located on the right side of the soaking box (2), the first placing rod (182) and the second placing rod (184) are rotatably connected between the supporting frames (181), the first placing wheels (183) for placing glass fiber products are connected to the first placing rod (182) at uniform intervals, and the second placing wheels (185) for placing glass fibers are connected to the second placing rod (184) at uniform intervals.

4. A plant for the production of glass fibre reinforced plastic according to claim 3, characterised in that the guiding means (19) comprise a first guiding shaft (191), a first guiding wheel (192), a second guiding shaft (193), a second guiding wheel (194), a third guiding shaft (195) and a third guiding wheel (196), the first guiding shaft (191) being rotatably connected to the top of the table (1), the first guiding shaft (191) being located between the supporting frame (181) and the soaking tank (2), the first guiding shaft (191) being uniformly spaced and connected with a first guiding wheel (192) for guiding glass fibres and glass fibre products, the soaking tank (2) being rotatably connected with a second guiding shaft (193), the second guiding wheel (194) for guiding glass fibres and glass fibre products being uniformly spaced and connected with a plurality of third guiding shafts (195) being rotatably connected to the top right side of the table (1), the third guiding shaft (195) being located on the left side of the soaking tank (2), the third guiding shaft (195) being uniformly spaced and connected with a third guiding wheel (196) for guiding glass fibres and glass fibre products being uniformly spaced and connected with the third guiding wheel (196).

5. The apparatus for producing glass fiber reinforced plastic according to claim 4, further comprising a pressing mechanism (22) for pressing the glass fiber and the glass fiber product, wherein the pressing mechanism (22) comprises a third screw (221) and a pressing plate (222), the third screw (221) is arranged on the vertical plate (211) in a threaded manner, and the pressing plate (222) for pressing the glass fiber and the glass fiber product is rotatably connected between the third screw (221).

6. The glass fiber reinforced plastic production equipment according to claim 5, further comprising a descending mechanism (23), wherein the descending mechanism (23) comprises a second rack (231), a second gear (232) and a wedge block (233), the second racks (231) are connected to the upper parts of the left mounting blocks (201), the second gears (232) are connected to the second screws (204), the second gears (232) move leftwards to be meshed with the second racks (231), the wedge blocks (233) are connected to the second racks (231), and the contact rods (216) move leftwards to be in contact with the wedge blocks (233).

7. A production method for a glass fiber reinforced plastic production apparatus according to claim 4, comprising the steps of:

S1: the rotating shaft (11) is rotated in a positive and negative alternate mode, the cam (12) is driven to rotate in a positive and negative alternate mode, the distance between the farthest end of the cam (12) and the push plate (9) is adjusted, and therefore the overall thickness of the produced U-shaped glass fiber reinforced plastic is adjusted, the first screw (174) is rotated in a positive and negative alternate mode, the baffle (173) is driven to move up and down, the distance between the baffle (173) and the moving rod (171) is adjusted, the thickness of the lower portion of the produced U-shaped glass fiber reinforced plastic is adjusted, and the thickness of three sides of the produced U-shaped glass fiber reinforced plastic is kept consistent;

s2: winding the glass fiber product on a first placing wheel (183), winding the glass fiber on a second placing wheel (185), pulling out the glass fiber and the glass fiber product, sequentially winding the glass fiber and the glass fiber product around a first guide wheel (192), a second guide wheel (194) and a third guide wheel (196), and pouring the resin solution into a soaking box (2), wherein the glass fiber and the glass fiber product are soaked in the resin solution;

s3: pushing the second clamping plate (206) downwards to open the first clamping plate (205) and the second clamping plate (206), then placing the glass fiber and the glass fiber product between the first clamping plate (205) and the second clamping plate (206), loosening the second clamping plate (206), and enabling the second clamping plate (206) to move upwards to clamp the glass fiber and the glass fiber product;

S4: controlling the electric guide rail (202) to drive the guide block (203) to move leftwards, so as to drive the first clamping plate (205) and the second clamping plate (206) to move leftwards, and the first clamping plate (205) and the second clamping plate (206) pull glass fibers and glass fiber products leftwards to pull the glass fibers and the glass fiber products between the upper die (5) and the lower die (8);

s5: starting a first heating rod (15) and a second heating rod (16), heating glass fibers and glass fiber products, softening the glass fibers and the glass fiber products, controlling the extension rod of the air cylinder (4) to extend, driving the pressing plate (6) to move downwards, enabling the pushing plate (9) to move upwards, and forming the glass fibers and the glass fiber products through the cooperation of the pushing plate (9) and the pressing plate (6), so as to manufacture the U-shaped glass fiber reinforced plastic.