CN111483155A

CN111483155A - Automatic change preparation glass steel equipment

Info

Publication number: CN111483155A
Application number: CN202010269123.0A
Authority: CN
Inventors: 陈枫
Original assignee: Anji Shenli Machinery Co ltd
Current assignee: Anji Shenli Machinery Co ltd
Priority date: 2020-04-08
Filing date: 2020-04-08
Publication date: 2020-08-04

Abstract

The invention discloses equipment for automatically manufacturing glass fiber reinforced plastic, which comprises a plurality of groups of dies, a plurality of groups of conveyor belt assemblies, a brush structure, a driving assembly, a fixing assembly and a glue discharging assembly, and is characterized in that: the brush structure comprises a fixed frame, a plurality of groups of brush components and a supporting component; the brush assembly comprises a first telescopic rod arranged on the fixing frame, a spherical block arranged below the first telescopic rod, a spherical sleeve connected with the spherical block, two groups of limiting parts and two ends on the spherical block are connected with the spherical block and the corrugated pipe of the spherical sleeve respectively, a brush frame arranged on the spherical sleeve, a fixed shaft arranged on the brush frame in a penetrating mode, a brush roller arranged on the fixed shaft in a sleeved mode and two groups of side edge parts arranged on two sides of the brush frame. The invention is provided with the brush structure, the die, the fixing component, the glue discharging component, the conveyor belt component and the driving component, so that the glass fiber cloth on the plane, the inclined plane and the vertical plane can be uniformly coated with the glue coating resin.

Description

Automatic change preparation glass steel equipment

Technical Field

The invention belongs to the technical field of glass fiber reinforced plastic manufacturing, and particularly relates to automatic glass fiber reinforced plastic manufacturing equipment.

Background

FRP is commonly called as glass fiber reinforced plastic, is a composite plastic prepared by taking glass fiber cloth as a raw material and coating gel coat resin in a mixing way, and has the advantages of light weight, hardness, short time, high strength, corrosion resistance, recoverability and the like; the unsaturated polyester resin contained in the gel coat resin is a chemical raw material and needs to be cured in the use process, and the curing process releases a toxic gas called styrene, so that the gel coat resin has stimulation and anesthetic effects on eyes and upper respiratory tracts, and the styrene is a suspicious carcinogen; most of the existing glass fiber reinforced plastic manufacturing processes are hand lay-up forming which can damage the health of human bodies after long-term operation, and because a plurality of grooves are formed in some glass fiber reinforced plastic products, mechanical equipment is difficult to adapt to the arrangement of uneven fiber cloth so as to uniformly coat gel coat resin.

Disclosure of Invention

The invention provides automatic glass fiber reinforced plastic manufacturing equipment capable of uniformly coating uneven surfaces in order to overcome the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: an automatic glass fiber reinforced plastic manufacturing device comprises a plurality of groups of molds, a plurality of groups of conveyor belt assemblies for conveying the molds, a brush structure arranged above the conveyor belt assemblies, a driving assembly for driving the brush structure to move, a fixing assembly arranged on one side of the brush structure, and a glue discharging assembly arranged on the other side of the brush structure, wherein the brush structure comprises a fixing frame, a plurality of groups of brush assemblies and a supporting assembly; the brush assembly comprises a first telescopic rod arranged on the fixing frame, a spherical block arranged below the first telescopic rod, a spherical sleeve connected with the spherical block, two groups of limiting parts and two ends on the spherical block are connected with the spherical block and the corrugated pipe of the spherical sleeve respectively, a brush frame arranged on the spherical sleeve, a fixed shaft arranged on the brush frame in a penetrating mode, a brush roller arranged on the fixed shaft in a sleeved mode and two groups of side edge parts arranged on two sides of the brush frame.

Cutting glass fiber cloth, and flatly paving the glass fiber cloth in a groove and a clamping groove of a die; then the resin is sent into a processing station positioned in the middle through a transmission belt assembly, then a mould is fixed at a fixing assembly, and corner gel coat resin of a gel outlet assembly drops on glass fiber cloth; then starting the first telescopic rods to extend, rolling the hairbrushes onto the glass fiber cloth, enabling the hairbrush rollers and the glue discharging assembly to move from left to right simultaneously under the driving of the driving assembly, and pressing the gel coat resin dropped on the glass fiber cloth in the rolling process of the hairbrush rollers so as to coat the gel coat resin in gaps inside the glass fiber cloth; when the brush roller meets the inclined surface of the groove, the spherical sleeve can slide around the spherical block to adjust the inclination angle of the brush to adapt to the inclined surface of the groove, so that the glass fiber on the inclined surface is coated with gel coat resin; through the process, the plurality of brush assemblies can be used for coating gel coat resin on the plane and also can be used for coating the uneven inclined plane, so that the glass steel plate capable of coping with various conditions can be manufactured; can protect the space between spherical piece and the spherical cover, prevent to return to the city and enter between ball star piece and the spherical cover to make the slip between spherical piece and the spherical cover keep smooth and easy state in long-time, the regulation of the angle of brush roller keeps sensitive.

The limiting piece comprises a limiting plate arranged on the spherical block and two return springs respectively arranged on two sides of the limiting plate; two ends of the return spring are respectively connected with the limiting block and the spherical sleeve; the side piece comprises a fixed groove arranged on the brush frame, a fixed plate arranged in the fixed groove, a side brush plate arranged on one side of the fixed plate, a plurality of adaptive springs with two ends respectively connected with the fixed plate and the side brush plate, a square groove arranged on the fixed plate, a spring steel sheet arranged in the square groove, an arc-shaped groove arranged on the brush frame, a through hole arranged on the brush frame, a button partially penetrating through the through hole and a fixed spring with two ends respectively connected with the brush frame and the button; the brush holder is provided with two triangular grooves and a square groove; the side brush plate has an inclination angle; the spring steel sheet has two arc parts, the lower arc part protrudes out of the upper arc part, and the protruding part is embedded into the arc groove.

When the brush roller meets the vertical surface of the groove, the brush roller is compressed by the spring, so that the side brush plate is vertical to adapt to the vertical surface, and the glass fiber of the vertical surface is coated with gel coat resin, so that the coating range of the device is expanded, and the device is suitable for coating the vertical surface; in the coating process, the spherical sleeve can only rotate around an axis formed by the lower parts of the two limiting plates through the limiting plates, so that the rotating angle of the brush roller is limited, the coating process is more stable, the coating effect is better, and the return spring can ensure that the brush roller keeps a horizontal state when not in contact with glass fiber cloth, so that the brush roller does not mistakenly contact the glass fiber cloth coated with the sizing coat resin, and the coating effect is good in the operation process of the whole device; after one day of work is finished, the brush roller and the side brush plate are required to be detached and cleaned, the arc-shaped part at the lower part of the spring steel sheet protrudes out of the arc-shaped groove by pressing the button, so that the whole side piece is removed, the fixed shaft is removed, then the brush roller is taken out, all the taken out parts are cleaned, and smooth and accurate operation of all small parts in the next use is guaranteed; the triangular groove and the square groove on the brush holder can reduce the weight of the lower part, so that the return spring is more sensitive to react, and the brush holder is more stable in structure and less prone to deformation after being used for a long time because the return spring has two triangular grooves.

The supporting component comprises an inclined plate fixedly connected with the fixing frame, a plurality of first rollers arranged on one side of the inclined plate far away from the fixing frame, and a sliding track for the second rollers to move.

The triangular structure formed by the inclined plate, the fixed frame and the connecting plate can ensure that the whole brush assembly is stable and does not swing in the movement process, so that the output of the first telescopic rod can be accurately reflected to the brush roller, and the control is more accurate; the plurality of first rollers can ensure that the inclined plate can follow the movement when the position of the brush assembly is adjusted forwards and backwards, and the supporting effect of the inclined plate can be always kept no matter how the position of the brush assembly is adjusted.

The driving assembly comprises a first electric track arranged above the transmission belt assembly, a plurality of first moving blocks capable of moving left and right on the first electric track, a connecting plate connected with the first moving blocks, a second electric track arranged below the connecting plate and a second moving block capable of moving back and forth on the second electric track; the sliding track is connected with the connecting plate, and the fixing frame is connected with the connecting plate.

The first electric track is started, so that the first moving blocks move rightwards at the same time, the connecting plate moves along with the first moving blocks, and meanwhile, the second electric track, the second moving blocks and the first lifting and contracting rods of the fixing frame move rightwards along with the connecting plate, so that the brush roller is driven to roll rightwards; after one-time smearing is finished from left to right, the first telescopic rod is lifted at the same time, so that the brush roller is lifted; the rubber penetrating component and the brush structure are conveyed back to the left side from the right side through a first electric track; then the second electric track is started, and the second moving block moves forwards and backwards to drive the fixed frame and the first telescopic rod, so that the brush roller finally moves forwards or backwards; adjusting the position so that the brush roller can be aligned to the position of the fiber cloth which is not coated, then starting the high-pressure air pump and the first electric track, and repeating the coating step; the left and right movement of the first electric track control brush assembly, the front and back movement of the second electric track control brush assembly, the first electric track can control the smearing times of the glass fiber cloth, so that the thickness of the gel coat resin can be controlled, the second electric track can enable the brush roller to evenly smear the gel coat resin on every place of the glass fiber cloth, and the uniform degree of once smearing is guaranteed.

One end of the die is provided with a clamping groove, and the die is provided with a plurality of grooves; the fixing assembly comprises a middle plate arranged on the lower surface of the first electric rail, a plurality of second telescopic rods respectively connected to the lower surface of the middle plate and a pressing plate connected with the second telescopic rods; the pressing plate is matched with the clamping groove in shape.

Cutting glass fiber cloth, flatly laying the glass fiber cloth in a groove and a clamping groove of a die, and then conveying the glass fiber cloth into a conveying belt component positioned in the middle through a conveying belt component on the right side; the extension of second telescopic link this moment promotes during the clamp plate is embedded into the draw-in groove, pushes down the glass fiber cloth in the draw-in groove, fixes it, fixes the position of mould simultaneously to realized mould and glass fiber cloth and do not produce the displacement in the follow-up stability of rolling in-process of brush, in order to avoid paining many times to the part of the overlap that produces behind the displacement.

The glue outlet assembly comprises a guide rail arranged on one side of the driving belt assembly, a storage box arranged on the guide rail, a plurality of second rollers fixedly connected below the storage box, a pressure pump arranged on the storage box, a bent pipe with one end connected to the storage box, a plurality of connecting rods with two ends respectively connected to the bent pipe and the connecting plate, and a plurality of discharge holes arranged on the bent pipe at equal intervals; the bending pipe is provided with a horizontal part and a vertical part, and the discharge hole is formed in the lower side of the horizontal part of the water.

The high-pressure pump is started, the gel coat resin in the storage box is conveyed to the bending pipe by the high-pressure pump, the gel coat resin has certain consistency, and then does not drip in the discharge hole immediately, and the pressure in the bending pipe is gradually increased in the process that the high-pressure pump continues to convey the gel coat resin, so that the gel coat resin is uniformly extruded out of the discharge hole, and accurate control on uniform gel obtaining and gel discharging stopping is realized; first electronic track starts the in-process connecting rod that drives the brush roller and roll right, the connecting plate is followed to the bending tube and is moved right, thereby it rolls on the guide rail to drive the second gyro wheel on the storage case, make the storage case follow the connecting plate and move right, because first electronic track is uniform motion, thereby make the volume that the gel coat resin drips each department on glass fiber cloth also be certain, thereby realized going out glue uniformly, finally make the effect of paining out better even.

In conclusion, the brush structure, the die, the fixing assembly, the glue discharging assembly, the conveyor belt assembly and the driving assembly are arranged, so that the glass fiber cloth on the plane, the inclined plane and the vertical plane can be uniformly coated with the sizing resin.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an enlarged view of fig. 1 at a.

Fig. 3 is an enlarged view of fig. 2 at C.

Fig. 4 is an enlarged view of fig. 1 at B.

Fig. 5 is a schematic structural view of the bending tube.

Fig. 6 is an enlarged view of fig. 5 at D.

Fig. 7 is a front view of the present invention.

Fig. 8 is an enlarged view of fig. 7 at E.

Fig. 9 is a schematic view of the structure of the lower part of the brush assembly.

Fig. 10 is an enlarged view of fig. 9 at F.

Fig. 11 is a right side view of fig. 9.

Fig. 12 is a cross-sectional view taken along a-a of fig. 11.

Fig. 13 is an enlarged view at G of fig. 12.

Fig. 14 is a cross-sectional view taken along line B-B of fig. 11.

Fig. 15 is an enlarged view of fig. 14 at H.

Detailed Description

As shown in fig. 1, an automatic glass fiber reinforced plastic manufacturing apparatus includes a mold 2, a conveyor belt assembly 5, a brush structure 1, a driving assembly 6, a fixing assembly 3, and a glue discharging assembly 4; the number of the moulds 2 is multiple groups, and the number of the moulds 2 can be selected; the conveyor belt assemblies 5 are 3 groups in number and are used for conveying the molds 2; the brush structure 1 is arranged above the conveyor belt assembly 5; the brush structure 1 comprises a fixed frame 11, a brush component 12 and a supporting component 13; the number of the brush assemblies 12 is 15, and the brush assemblies 12 comprise a first telescopic rod 121, a spherical block 122, a spherical sleeve 123, a limiting assembly, a corrugated pipe 124, a brush frame 125, a fixed shaft 129, a brush roller 128 and a side piece 8; the first telescopic rod 121 is commercially available and fixedly connected to the lower surface of the fixed frame 11; the spherical block 122 is fixedly connected to the lower surface of the telescopic rod; the spherical sleeve 123 is internally provided with a spherical cavity which is matched with the spherical block 122, and the spherical sleeve 123 is of a complete spherical 2/3 size and is connected with the spherical block 122 in a sliding manner; the two limiting pieces 7 are arranged on the spherical block 122; the two ends of the corrugated pipe 124 are respectively connected with the spherical block 122 and the spherical sleeve 123; the brush holder 125 is fixedly connected to the lower surface of the spherical sleeve 123; the fixed shaft 129 penetrates through the brush holder 125, the brush roller 128 is sleeved on the fixed shaft 129 and can rotate, and the outer surface of the brush roller 128 is made of soft hair; the side edge pieces 8 are 2 groups and are arranged at two sides of the brush holder 125; the driving assembly 6 is used for driving the brush structure 1 to move; the fixed component 3 is arranged on one side of the brush structure 1; the glue outlet assembly 4 is arranged on the other side of the brush structure 1.

The limiting piece 7 comprises a limiting plate 71 and a return spring 72; the limiting plate 71 is an arc surface, the arc surface is adapted to the spherical block 122, the limiting plate 71 is fixedly connected to the spherical block 122 through the arc surface, and the lower part of the limiting plate 71 is provided with a fillet, so that the spherical sleeve 123 can rotate conveniently; the number of the return springs 72 is two, the two return springs are respectively arranged on two sides of the limit plate 71, and two ends of each return spring 72 are respectively fixedly connected with the limit plate 71 and the spherical sleeve 123; the side piece 8 comprises a fixing groove 80, a fixing plate 81, a side brush plate 83, an adaptive spring 82, a square groove 84, a spring steel sheet 85, an arc-shaped groove 86, a through hole 87, a button 88 and a fixing spring 89; the fixing groove 80 is opened at one side of the brush holder 125; the fixing plate 81 is connected to the fixing groove 80 through a limiting member 7 in a snap-fit manner; the side brush plate 83 is arranged on one side of the fixing plate 81 far away from the brush holder 125; the number of the adaptive springs 82 is 2, and two ends of the adaptive springs are respectively connected to the fixing plate 81 and the side brush plate 83; the side brush plates 83 have an inclination angle, that is, the lengths of the two adaptive springs 82 are different in a natural state, and the adaptive spring 82 positioned above is longer than the adaptive spring 82 positioned below; the square groove 84 is arranged on the fixed plate 81, the spring steel sheet 85 is arranged in the square groove 84, and two ends of the spring steel sheet are respectively connected with different positions of the fixed plate 81; the arc-shaped slot 86 is arranged on the brush holder 125, and the arc-shaped slot 86 is positioned on one side of the square slot 84; the spring steel sheet 85 has two arc-shaped parts, the lower arc-shaped part protrudes out of the upper arc-shaped part, and the protruding part is embedded into the arc-shaped groove 86; the through hole 87 is formed in the brush holder 125 and is located on one side of the arc-shaped groove 86; the button 88 is partially arranged in the through hole 87 in a penetrating way, and the longitudinal section of the button 88 is T-shaped; two ends of the fixing spring 89 are respectively connected to the brush holder 125 and the button 88, so as to fix and return the button 88; in a brush assembly 12, two limiting members 7 are respectively located at the left and right sides of the spherical block 122, and two side members 8 are respectively located at the front and rear sides of the brush holder 125; the brush holder 125 is provided with two triangular grooves 126 and a square groove 127;

the supporting assembly 13 includes an inclined plate 131, a first roller 132 and a sliding rail 133; the inclined plate 131 is fixedly connected with the fixed frame 11, and the inclination angle of the inclined plate 131 is 45 degrees; the number of the first rollers 132 is 4, and the first rollers are fixedly connected to one side of the inclined plate 131, which is far away from the fixed frame 11; the sliding rail 133 has a groove for the second roller 43 to roll.

The driving component 6 comprises a first electric track 61, a first moving block 62, a connecting plate 63, a second electric track 64 and a second moving block 65; the first motorized track 61 is commercially available and is disposed above the conveyor belt assembly 5; the number of the first moving blocks 62 is 4, and the first moving blocks can move left and right on the first electric track 61; the connecting plate 63 is fixedly connected to each first moving block 62; the second electric rail 64 is commercially available and fixedly connected to the lower surface of the left end of the connecting plate 63; the second moving block 65 can move back and forth on the second power track 64; the sliding rail 133 is connected to the connecting plate 63, and the fixing frame 11 is connected to the connecting plate 63.

One end of the die 2 is provided with a clamping groove 21, the die 2 is provided with grooves 22, and the number of the grooves 22 is determined according to the shape of the glass fiber reinforced plastic panel to be manufactured; the fixing component 3 comprises an intermediate plate 31, a second telescopic rod 32 and a pressure plate 33; the middle plate 31 is fixedly connected to the lower surface of the left end of the first electric rail 61; the number of the second telescopic rods 32 is 2, and the second telescopic rods are respectively connected to the lower surface of the middle plate 31; the pressing plate 33 is fixedly connected to the lower surface of each second expansion link 32; the pressure plate 33 is adapted to the shape of the card slot 21, so that the pressure plate 33 can be inserted into the card slot 21.

The glue discharging assembly 4 comprises a guide rail 41, a storage box 42, a second roller 43, a pressure pump 44, a bent pipe 45, a connecting rod 46 and a discharging hole 47; the guide rail 41 is arranged on one side of the conveyor belt assembly 5, the number of the second rollers 43 is 4, the second rollers are fixedly connected below the storage box 42, and every two rollers are respectively positioned on two sides of the guide rail 41; the pressure pump 44 is arranged on the measuring tank, and the pressure pump 44 is commercially available and is used for conveying gel coat resin in the measuring tank into the bent pipe 45 and giving a certain pressure to discharge the gel coat resin; the number of the connecting rods 46 is 2, and the connecting rods are respectively arranged at the front side and the rear side of the connecting plate 63; the one end of the bending pipe 45 is connected to the inside of the material storage box 42, the other end of the bending pipe penetrates through the lower portions of the two connecting rods 46 and is fixedly connected with the two connecting rods 46, the bending pipe 45 is provided with a horizontal portion and a vertical portion, the number of the discharge holes 47 is 15, and the discharge holes are arranged on the lower side of the upper water horizontal portion of the bending pipe 45 at equal intervals.

The specific working process is as follows: cutting glass fiber cloth, flatly laying the glass fiber cloth in the groove 22 and the clamping groove 21 of the die 2, and then feeding the glass fiber cloth into the middle conveyor belt assembly 5 through the right conveyor belt assembly 5; at this time, the second telescopic rod 32 is extended to push the pressing plate 33 to be embedded into the clamping groove 21, so that the glass fiber cloth in the clamping groove 21 is pressed and fixed, and meanwhile, the position of the mold 2 is fixed; starting a high-pressure pump, conveying the gel coat resin in the storage tank 42 to the bent pipe 45 by the high-pressure pump, and then dripping the gel coat resin from each discharge hole 47; at the moment, the first telescopic rods 121 are started to extend, the brush rollers 128 are pressed on the glass fiber cloth, then the first electric track 61 is started, so that the first moving blocks 62 move rightwards at the same time, the connecting plate 63 moves along with the first moving blocks 62, and meanwhile, the second electric track 64, the second moving blocks 65 and the first telescopic rods of the fixed frame 11 move rightwards along with the connecting plate 63, so that the brush rollers 128 are driven to roll rightwards; meanwhile, the connecting rod 46 and the bent pipe 45 move rightwards along with the connecting plate 63, so that the second roller 43 on the material storage box 42 is driven to roll on the guide rail 41, and the material storage box 42 moves rightwards along with the connecting plate 63; therefore, the brush roller 128 presses the gel resin dropped on the glass cloth during the rolling process, thereby applying the gel resin to the inner space of the glass cloth; when the brush roller 128 meets the inclined surface of the groove 22, the spherical sleeve 123 slides around the spherical block 122 to adjust the inclined angle of the brush to adapt to the inclined surface of the groove 22, so that the glass fiber on the inclined surface is coated with gel resin; when the brush roller 128 meets the vertical surface of the groove 22, the adaptive spring 82 is compressed, so that the side brush plate 83 is vertical to adapt to the vertical surface, and gel coat resin is coated on the glass fiber of the vertical surface; after finishing the coating once from left to right, the high-pressure pump is closed, and the dripping of the gel coat resin is stopped; simultaneously, the first telescopic rod 121 is lifted, so that the brush roller 128 is lifted; the outgoing glue assembly 4 and the brush arrangement 1 are transported from the right side back to the left side by means of the first motorized track 61; then the second electric track 64 is started to move the second moving block 65 back and forth, so as to drive the fixed frame 11 and the first telescopic rod 121, and finally, the brush roller 128 is moved back and forth; adjusting the position so that the brush roller 128 can be aligned with the position of the fiber cloth which is not coated, then starting the high-pressure air pump and the first electric track 61, and repeating the coating step; after multiple times of coating, the glass fiber cloth is uniformly coated with gel coat resin, the coating action is finished, and the second telescopic rod 32 is contracted to enable the pressing plate 33 to be separated from the clamping groove 21; the completed mould 2 is then transported out for subsequent processing by the conveyor assembly 5.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of 1 foregoing exemplary embodiment, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides an automatic change preparation glass steel equipment, includes multiunit mould (2), is used for the transportation multiunit conveyer belt subassembly (5) of mould (2), locate brush structure (1) of conveyer belt subassembly (5) top, be used for the drive assembly (6) that brush structure (1) removed, locate fixed subassembly (3) of brush structure (1) one side, locate go out gluey subassembly (4) of brush structure (1) opposite side, its characterized in that: the brush structure (1) comprises a fixed frame (11), a plurality of groups of brush components (12) and a supporting component (13); the brush assembly (12) comprises a first telescopic rod (121) arranged on the fixing frame (11), a spherical block (122) arranged below the first telescopic rod (121), a spherical sleeve (123) connected to the spherical block (122), two groups of limiting pieces (7) arranged on the spherical block (122), a corrugated pipe (124) with two ends respectively connected with the spherical block (122) and the spherical sleeve (123), a brush frame (125) arranged on the spherical sleeve (123), a fixing shaft (129) penetrating through the brush frame (125), a brush roller (128) sleeved on the fixing shaft (129) and two groups of side pieces (8) arranged on two sides of the brush frame (125).

2. The automated glass reinforced plastic manufacturing apparatus of claim 1, wherein: the limiting piece (7) comprises a limiting plate (71) arranged on the spherical block (122) and two return springs (72) respectively arranged on two sides of the limiting plate (71); two ends of the return spring (72) are respectively connected with the limiting plate (71) and the spherical sleeve (123); the side piece (8) comprises a fixing groove (80) arranged on the brush holder (125), a fixing plate (81) arranged in the fixing groove (80), a side brush plate (83) arranged on one side of the fixing plate (81), a plurality of adaptive springs (82) with two ends respectively connected with the fixing plate (81) and the side brush plate (83), a square groove (84) arranged on the fixing plate (81), a spring steel sheet (85) arranged in the square groove (84), an arc-shaped groove (86) arranged on the brush holder (125), a through hole (87) arranged on the brush holder (125), a button (88) with a part penetrating through the through hole (87) and a fixing spring (89) with two ends respectively connected with the brush holder (125) and the button (88); the brush holder (125) is provided with two triangular grooves (126) and a square groove (127); the side brush plate (83) has an inclination angle; the spring steel sheet (85) has two arc parts, the lower arc part protrudes out of the upper arc part, and the protruding part is embedded into the arc groove (86).

3. The automated glass reinforced plastic manufacturing apparatus of claim 1, wherein: the supporting component (13) comprises an inclined plate (131) fixedly connected with the fixed frame (11), a plurality of first rollers (132) arranged on one side, far away from the fixed frame (11), of the inclined plate (131), and a sliding rail (133) capable of allowing the second rollers (43) to move.

4. The automated glass reinforced plastic manufacturing apparatus of claim 3, wherein: the driving assembly (6) comprises a first electric track (61) arranged above the conveyor belt assembly (5), a plurality of first moving blocks (62) capable of moving left and right on the first electric track (61), a connecting plate (63) connected with the first moving blocks (62), a second electric track (64) arranged below the connecting plate (63), and a second moving block (65) capable of moving back and forth on the second electric track (64); the sliding rail (133) is connected with the connecting plate (63), and the fixing frame (11) is connected with the connecting plate (63).

5. The automated glass reinforced plastic manufacturing apparatus of claim 3, wherein: one end of the die (2) is provided with a clamping groove (21), and the die (2) is provided with a plurality of grooves (22); the fixing component (3) comprises a middle plate (31) arranged on the lower surface of the first electric rail (61), a plurality of second telescopic rods (32) respectively connected to the lower surface of the middle plate (31), and a pressing plate (33) connected with the second telescopic rods (32); the pressing plate (33) is adaptive to the shape of the clamping groove (21).

6. The automated glass reinforced plastic manufacturing apparatus of claim 3, wherein: the glue discharging assembly (4) comprises a guide rail (41) arranged on one side of the conveyor belt assembly (5), a storage box (42) arranged on the guide rail (41), a plurality of second rollers (43) fixedly connected below the storage box (42), a pressure pump (44) arranged on the storage box, a bent pipe (45) with one end connected to the storage box (42), a plurality of connecting rods (46) with two ends respectively connected to the bent pipe (45) and the connecting plate (63), and a plurality of discharge holes (47) arranged on the bent pipe (45) at equal intervals; the bent pipe (45) is provided with a horizontal part and a vertical part, and the discharge hole (47) is arranged on the lower side of the horizontal part.