CN113043626B

CN113043626B - Extrusion forming equipment for glass fiber board

Info

Publication number: CN113043626B
Application number: CN202110269033.6A
Authority: CN
Inventors: 李洪珑
Original assignee: Shangyou Yaoxing Composite Material Co ltd
Current assignee: Shangyou Yaoxing Composite Material Co ltd
Priority date: 2021-03-12
Filing date: 2021-03-12
Publication date: 2022-08-12
Anticipated expiration: 2041-03-12
Also published as: CN113043626A

Abstract

The invention relates to a forming device, in particular to an extrusion forming device for a glass fiber plate. The invention provides extrusion forming equipment for glass fiber plates, which is suitable for manufacturing various types of glass fiber plates, is convenient for people to use and improves the working efficiency. An extrusion molding device for glass fiber plates comprises a bottom frame and a workbench, wherein the workbench is arranged on the bottom frame; the feeding mechanism is arranged on the workbench; the hot pressing mechanism is arranged on the workbench; the material pulling mechanism is arranged on the workbench and matched with the hot pressing mechanism. The glass fiber board production line is provided with the discharging mechanism, the hot pressing mechanism, the material pulling mechanism, the auxiliary mechanism, the gluing mechanism, the filling mechanism, the material receiving mechanism and other components, the discharging mechanism is convenient for people to place raw materials, the hot pressing mechanism is used for hot pressing the raw materials and the auxiliary materials to produce the glass fiber board, the filling mechanism is convenient for heating the auxiliary materials, the gluing mechanism is convenient for smearing the auxiliary materials on the raw materials, and the material receiving mechanism is convenient for collecting the glass fiber board.

Description

Extrusion forming equipment for glass fiber board

Technical Field

The invention relates to a forming device, in particular to an extrusion forming device for a glass fiber plate.

Background

The glass fiber board is a glass fiber board, is synthesized by glass fiber materials and high-heat-resistance composite materials, does not contain asbestos components harmful to human bodies, and has high mechanical property, dielectric property, heat resistance, moisture resistance and processability; the plastic grinding machine is used for plastic moulds, injection moulds, machine manufacturing, forming machines, drilling machines, injection molding machines, motors, PCBs, ICT jigs, table-board grinding base plates and the like.

The application publication number is CN109732953A, and the application publication date is 2019.05.10, and discloses a method for manufacturing a flame-retardant epoxy glass fiber board, which comprises the steps of putting dimethylformamide, ethylene glycol monomethyl ether and anhydrous calcium chloride into a reaction kettle, and stirring and mixing the materials uniformly to prepare a mixed solvent; adding dicyandiamide into the mixed solvent, and stirring for dissolving; adding epoxy resin into the mixed solvent, and stirring and mixing; putting 2-methylimidazole in a container, adding rosin into the container, and stirring uniformly to prepare a mixed solution; pouring the mixed solution into the mixed solvent, and uniformly stirring; the equipment is only suitable for manufacturing specific flame-retardant epoxy glass fiber boards, has higher manufacturing requirement and is inconvenient for people to use.

Therefore, it is necessary to develop an extrusion molding apparatus for glass fiber sheets, which is suitable for manufacturing various types of glass fiber sheets, is convenient for people to use, and improves the working efficiency.

Disclosure of Invention

In order to overcome the defects that the existing method for manufacturing the flame-retardant epoxy glass fiber board is only suitable for manufacturing a specific flame-retardant epoxy glass fiber board, has higher manufacturing requirement and is inconvenient for people to use, the technical problem of the invention is as follows: the extrusion forming equipment for the glass fiber boards is suitable for manufacturing various types of glass fiber boards, is convenient for people to use, and improves the working efficiency.

The technical scheme of the invention is as follows: an extrusion molding apparatus for a glass fiber sheet, comprising:

the device comprises a bottom frame and a workbench, wherein the workbench is arranged on the bottom frame;

the material feeding mechanism is arranged on the workbench;

the hot pressing mechanism is arranged on the workbench;

the material pulling mechanism is arranged on the workbench and matched with the hot pressing mechanism.

More preferably, the discharging mechanism comprises:

the workbench is provided with two connecting plates;

the reel is rotatably connected between the two connecting plates;

the reel is provided with two circular baffles in a rotating mode.

More preferably, the hot press mechanism includes:

the working table is provided with two cylinders;

the two cylinder telescopic rods are connected with the connecting frame;

the compression block is arranged on the workbench;

the lower pressing block is arranged on the workbench in a sliding manner, is connected with the pressed block in a sliding manner, and is connected with the connecting frame;

the lower pressing block is wound with four first return springs, and the first return springs are connected with the workbench and the connecting frame;

the lower inserting plate is arranged on the lower pressing block.

More preferably, the material pulling mechanism comprises:

the workbench is provided with two first fixed columns;

the motor is arranged on the workbench;

the two first fixing columns are connected with first cylinders;

the two first fixing columns are connected with a first cylinder;

the first belt pulley assembly is connected between the second cylinder and the motor output shaft;

the second cylinder is provided with a first gear;

the first fixed column on one side of the first gear is provided with a first gear, and the first gear is meshed with the first gear;

a second belt pulley component is connected between the second gear and the first cylinder;

the switch is arranged on the workbench and is matched with the lower inserting plate.

More preferably, the method further comprises the following steps:

the auxiliary mechanism is arranged on the connecting plate;

the auxiliary mechanism comprises:

the two connecting plates are provided with second fixing columns;

the two second fixing columns are connected with a third cylinder;

and the two second fixing columns are connected with a fourth cylinder.

More preferably, the method further comprises the following steps:

the glue coating mechanism is arranged on the connecting plate and connected with the workbench;

the gluing mechanism comprises:

the soft pillow table is arranged on the workbench;

the two connecting plates are provided with first connecting round rods;

and the blanking frame is connected between the two first connecting round rods and matched with the soft pillow table.

More preferably, the method further comprises the following steps:

the connecting plate is provided with a filling mechanism which is matched with the blanking frame;

the packing mechanism comprises:

the two connecting plates are provided with second connecting round rods;

the material containing frame is connected between the two second connecting round rods;

the lower pressing block is provided with two upper bending plates;

the sealing cover is rotationally connected with the material containing frame;

the rotating plate is rotatably connected in the material containing frame;

the rotating plate is provided with two lantern rings, and the lantern rings are matched with the upper bending plate;

the rotating plate is wound with two torsion springs, and the torsion springs are connected with the material containing frame and the rotating plate;

and the rotating plate is wound with two second return springs, and the second return springs are connected with the rotating plate and the lantern ring.

More preferably, the method further comprises the following steps:

the material receiving mechanism is arranged on the workbench;

receiving mechanism is including:

the workbench is provided with two fixed bridges;

plugs are arranged in the two fixed bridges in a sliding manner;

two fixing nails are slidably arranged on the two fixing bridges and matched with the plug;

the third return spring is arranged on the fixing nail and is connected with the fixing bridge and the fixing nail;

the two plugs are connected with the material receiving barrel;

the wheels are arranged on the material receiving barrel;

the handrail is arranged on the material receiving barrel.

The invention has the following advantages:

the glass fiber board production line is provided with the discharging mechanism, the hot pressing mechanism, the material pulling mechanism, the auxiliary mechanism, the gluing mechanism, the filling mechanism, the material receiving mechanism and other components, the discharging mechanism is convenient for people to place raw materials, the material pulling mechanism and the auxiliary mechanism are convenient for feeding, the hot pressing mechanism is used for hot pressing the raw materials and the auxiliary materials to produce the glass fiber board, the filling mechanism is convenient for heating the auxiliary materials, the gluing mechanism is convenient for coating the auxiliary materials on the raw materials, and the material receiving mechanism is convenient for collecting the glass fiber board.

Drawings

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

FIG. 2 is a schematic perspective view of the work bench and the discharging mechanism of the present invention.

Fig. 3 is a schematic perspective view of the worktable and the hot-press mechanism of the present invention.

Fig. 4 is a schematic perspective view of the workbench and the pulling mechanism of the present invention.

Fig. 5 is a schematic perspective view of a part of the pulling mechanism of the present invention.

Fig. 6 is a schematic perspective view of the worktable, the connecting plate and the auxiliary mechanism of the present invention.

FIG. 7 is a schematic perspective view of the worktable, the connecting plate and the glue spreading mechanism of the present invention.

Fig. 8 is a schematic perspective view of the connecting plate, the lower press block packing mechanism and the like according to the present invention.

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

Fig. 10 is a schematic perspective view of the workbench and the receiving mechanism of the invention.

Fig. 11 is a schematic perspective view of a part of the receiving mechanism of the present invention.

The parts are labeled as follows: 1-underframe, 2-workbench, 3-discharging mechanism, 31-connecting plate, 32-scroll, 33-round baffle, 4-hot pressing mechanism, 41-air cylinder, 42-connecting frame, 43-lower pressing block, 44-pressed block, 45-first return spring, 46-lower inserting plate, 5-pulling mechanism, 51-first fixed column, 52-motor, 53-first cylinder, 54-second cylinder, 55-first gear, 56-second gear, 57-first belt pulley component, 58-second belt pulley component, 59-switch, 6-auxiliary mechanism, 61-second fixed column, 62-third cylinder, 63-fourth cylinder, 7-gluing mechanism, 71-soft pillow table, 72-first connecting round rod, 73-a blanking frame, 8-a filling mechanism, 81-a second connecting round rod, 82-an upper bending plate, 83-a containing frame, 84-a sealing cover, 85-a rotating plate, 86-a lantern ring, 87-a torsion spring, 88-a second return spring, 9-a receiving mechanism, 91-a receiving barrel, 92-a wheel, 93-a handrail, 94-a fixed bridge, 95-a plug, 96-a fixed nail and 97-a third return spring.

Detailed Description

The invention is further illustrated by the following specific examples in which, unless otherwise explicitly stated and limited, terms such as: the arrangement, installation, connection are to be understood broadly, for example, they may be fixed, detachable, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

The utility model provides an extrusion equipment for glass fiber board, as shown in figure 1, figure 2, figure 3, figure 4, figure 6 and figure 7, including chassis 1, workstation 2, drop feed mechanism 3, hot pressing mechanism 4 and drawing material mechanism 5, the 1 top of chassis is equipped with

workstation

2, and 2 left sides of workstation are equipped with drop feed mechanism 3, and 2 middle parts of workstation are equipped with hot pressing mechanism 4, and 2 right parts of workstation are equipped with and draw material mechanism 5, draw material mechanism 5 and the cooperation of hot pressing mechanism 4.

When the glass fiber board hot-press forming machine is used by people, raw materials are placed on the material placing mechanism 3, part of the raw materials are pulled out, auxiliary materials are added to the raw materials, the hot-press mechanism 4 is started to carry out hot-press on the raw materials and the auxiliary materials to form a glass fiber board, the manufactured glass fiber board is placed on the material pulling mechanism 5, the material pulling mechanism 5 is started to move to pull out new raw materials, after the manufacture is finished, the hot-press mechanism 4 and the material pulling mechanism 5 are closed, the glass fiber board is taken down, if more glass fiber boards need to be manufactured, the operation is repeated, people can conveniently and quickly carry out hot-press forming on the glass fiber board, and labor is saved.

Example 2

On the basis of the embodiment 1, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7 and fig. 8, the discharging mechanism 3 comprises a connecting plate 31, a reel 32 and a circular baffle 33, two connecting plates 31 are arranged at the left part of the workbench 2, the reel 32 is rotatably connected between the connecting plates 31 at the front side and the rear side, and two circular baffles 33 are rotatably arranged on the reel 32.

The raw material is firstly wound on a scroll 32, a circular baffle 33 has a limiting effect on the quantity of the raw material, part of the raw material is pulled out to move rightwards, auxiliary materials are added into the raw material, the raw material drives the scroll 32 to rotate, a hot pressing mechanism 4 is started to carry out hot pressing on the raw material and the auxiliary materials to manufacture the glass fiber board, the manufactured glass fiber board is placed on a material pulling mechanism 5, the material pulling mechanism 5 is started to move to pull out new raw material, after the manufacturing is finished, the hot pressing mechanism 4 and the material pulling mechanism 5 are closed, the glass fiber board is taken down, if more glass fiber boards need to be manufactured, the operation is repeated, and people can conveniently place the raw material.

Hot press mechanism 4 is including cylinder 41, the link 42, briquetting 43 down, receive piece 44, first reset spring 45 and lower picture peg 46, two cylinders 41 are installed to 2 bottoms of workstation, be connected with link 42 on two cylinders 41 telescopic links, 2 tops of workstation are equipped with and receive

piece

44, 2 middle parts slidingtype of workstation are equipped with briquetting 43 down, briquetting 43 and receive piece 44 sliding type connection down, briquetting 43 and link 42 are connected down, around having four first reset spring 45 on the briquetting 43 down, first reset spring 45 is connected with workstation 2 and link 42, briquetting 43 front side right part down is equipped with down picture peg 46.

Firstly, the raw material is coiled on a scroll 32, part of the raw material is pulled out to move rightwards, auxiliary material is added on the raw material, a cylinder 41 is started, a telescopic rod of the cylinder 41 drives a connecting frame 42 to move upwards, the connecting frame 42 drives a lower pressing block 43 to move upwards to be far away from a pressed block 44, a first return spring 45 is changed into a compression state, the lower pressing block 43 drives a lower inserting plate 46 to move upwards, the raw material and the auxiliary material are placed on the pressed block 44, the telescopic rod of the cylinder 41 drives the connecting frame 42 to move downwards, the connecting frame 42 drives the lower pressing block 43 to move, the first return spring 45 is restored to an initial state, the lower pressing block 43 is contacted with the raw material and the auxiliary material to be hot-pressed into a glass fiber board, the manufactured glass fiber board is continuously pulled to move rightwards, the glass fiber board is placed on a material pulling mechanism 5, the material pulling mechanism 5 is started to move to pull out new raw material, after the manufacture is completed, the hot pressing mechanism 4 and the material pulling mechanism 5 are closed, the glass fiber board can be taken down, if more glass fiber boards need to be manufactured, the operation is repeated, people can conveniently and quickly carry out hot press molding on the glass fiber board, and labor is saved.

The material pulling mechanism 5 comprises a first fixed column 51, a motor 52, a first cylinder 53, a second cylinder 54, a first gear 55, a second gear 56, a first belt pulley assembly 57, a second belt pulley assembly 58 and a switch 59, both sides all are equipped with first fixed column 51 around the 2 right part of workstation, motor 52 is installed to 2 bottoms of workstation, the first fixed column 51 upper portion of both sides is connected with first cylinder 53 around, the first fixed column 51 middle part of both sides is connected with second cylinder 54 around, be connected with first belt pulley subassembly 57 between second cylinder 54 and the motor 52 output shaft, be equipped with first gear 55 on the second cylinder 54, the first fixed column 51 right side of front side is equipped with second gear 56, second gear 56 and the meshing of first gear 55, be connected with second belt pulley subassembly 58 between second gear 56 and the first cylinder 53, workstation 2 bottoms is equipped with switch 59, switch 59 and lower picture peg 46 cooperation.

Firstly, the raw material is coiled on a scroll 32, part of the raw material is pulled out to move rightwards, auxiliary materials are added into the raw material, an air cylinder 41 is started, a connecting frame 42 drives a lower pressing block 43 to move upwards to be far away from a pressed block 44, the lower pressing block 43 drives a lower insertion plate 46 to move upwards, the lower insertion plate 46 is far away from a switch 59, the switch 59 is opened, the raw material and the auxiliary materials are placed on the pressed block 44, the connecting frame 42 drives the lower pressing block 43 to move, the lower pressing block 43 is in contact with the raw material and the auxiliary materials to be hot-pressed to manufacture glass fiber plates, the lower pressing block 43 drives the lower insertion plate 46 to move downwards, the lower insertion plate 46 is in contact with the switch 59 and is closed, the connecting frame 42 drives the lower pressing block 43 to move upwards to be far away from the pressed block 44 again, the lower pressing block 43 drives the lower insertion plate 46 to move upwards, the lower insertion plate 46 is far away from the switch 59, the switch 59 is opened, the manufactured glass fiber plates are placed between a first cylinder 53 and a second cylinder 54, the output shaft of the motor 52 drives the first belt pulley assembly 57 to move, the first belt pulley assembly 57 drives the second cylinder 54 to rotate, the second cylinder 54 drives the first gear 55 to move, because the first gear 55 is meshed with the second gear 56, the first gear 55 drives the second gear 56 to move, the second gear 56 drives the second belt pulley assembly 58 to move, the second belt pulley assembly 58 drives the first cylinder 53 to rotate, the first cylinder 53 and the second cylinder 54 move to drive the glass fiber plate to continue moving rightwards and simultaneously drive new raw materials to move rightwards, the connecting frame 42 drives the lower pressing block 43 to move, the lower pressing block 43 carries out new hot pressing, the lower pressing block 43 drives the lower inserting plate 46 to move downwards, the lower inserting plate 46 contacts the switch 59 and closes the switch, after the glass fiber plate is completely manufactured, the air cylinder 41 is closed, the glass fiber plate can be taken down, if more glass fiber plates need to be manufactured, the above operations are repeated, the feeding is convenient.

Example 3

On the basis of embodiment 2, as shown in fig. 1, 6, 7, 8, 9, 10 and 11, the auxiliary mechanism 6 is further included, the auxiliary mechanism 6 is arranged on the connecting plate 31, the auxiliary mechanism 6 includes a second fixing column 61, a third column 62 and a fourth column 63, the second fixing columns 61 are arranged on the outer sides of the connecting plates 31 on the front side and the rear side, the third columns 62 are connected to the upper portions of the second fixing columns 61 on the front side and the rear side, and the fourth columns 63 are connected to the middle portions of the second fixing columns 61 on the front side and the rear side.

Firstly, material is coiled on a scroll 32, a part of the material is pulled out and placed between a third cylinder 62 and a fourth cylinder 63, the material is continuously pulled to move rightwards, the material drives the third cylinder 62 and the fourth cylinder 63 to rotate, auxiliary materials are added on the material, a cylinder 41 is started, a connecting frame 42 drives a lower pressing block 43 to move upwards and away from a pressed block 44, the material and the auxiliary materials are placed on the pressed block 44, the connecting frame 42 drives the lower pressing block 43 to move, the lower pressing block 43 is contacted with the material and the auxiliary materials to be manufactured into a glass fiber board through hot pressing, the manufactured glass fiber board is placed between a first cylinder 53 and a second cylinder 54, the first cylinder 53 and the second cylinder 54 move to drive the glass fiber board to move rightwards continuously, new material is driven to move rightwards, after the glass fiber board is completely manufactured, the cylinder 41 is closed, the glass fiber board can be taken down, if more glass fiber boards need to be manufactured, the operation is repeated, so that the feeding is convenient.

Still including rubber coating mechanism 7, be equipped with rubber coating mechanism 7 on the connecting plate 31, rubber coating mechanism 7 is connected with workstation 2, and rubber coating mechanism 7 is equipped with soft pillow platform 71 including soft pillow platform 71, first connection pole 72 and unloading frame 73 on the left of the 2 tops of workstation, and the connecting plate 31 outside of both sides all is equipped with first connection pole 72 around, is connected with unloading frame 73 between the first connection pole 72 of both sides around, and unloading frame 73 cooperates with soft pillow platform 71.

Firstly, the raw material is coiled on a reel 32, the auxiliary material is added into a blanking frame 73, a part of the raw material is pulled out and placed on a soft pillow table 71, the raw material is continuously pulled to move rightwards, the auxiliary material can be uniformly coated on the raw material, a cylinder 41 is started, a connecting frame 42 drives a lower pressing block 43 to move upwards and away from a pressed block 44, the raw material and the auxiliary material are placed on the pressed block 44, the connecting frame 42 drives the lower pressing block 43 to move, the lower pressing block 43 is contacted with the raw material and the auxiliary material to prepare the glass fiber board through hot pressing, people put the prepared glass fiber board between a first cylinder 53 and a second cylinder 54, the first cylinder 53 and the second cylinder 54 move to drive the glass fiber board to move rightwards continuously, simultaneously, new raw materials are driven to move rightwards, after the glass fiber board is completely manufactured, the air cylinder 41 is closed, the glass fiber board is taken down, if more glass fiber plates need to be manufactured, the operation is repeated, and auxiliary materials are conveniently smeared.

Also comprises a filling mechanism 8, the middle part of the connecting plate 31 is provided with the filling mechanism 8, the filling mechanism 8 is matched with the blanking frame 73, the filling mechanism 8 comprises a second connecting round rod 81, an upper bent plate 82, a material containing frame 83 and a sealing cover 84, the rotary plate 85, the lantern ring 86, the torsion springs 87 and the second return springs 88, the second connecting round rods 81 are arranged in the middle of the two connecting plates 31, the material containing frame 83 is connected between the second connecting round rods 81 on the front side and the rear side, the upper bent plate 82 is arranged on the front side and the rear side of the left portion of the lower pressing block 43, the sealing cover 84 is connected on the material containing frame 83 in a rotating mode, the rotary plate 85 is connected in the rotating mode on the material containing frame 83, the two lantern rings 86 are arranged on the rotary plate 85, the lantern ring 86 is matched with the upper bent plate 82, the two torsion springs 87 are wound on the rotary plate 85, the torsion springs 87 are connected with the material containing frame 83 and the rotary plate 85, the two second return springs 88 are wound on the rotary plate 85, and the second return springs 88 are connected with the rotary plate 85 and the lantern ring 86.

Firstly, the raw material is coiled on the scroll 32, the sealing cover 84 is opened, the auxiliary material is added into the material containing frame 83, the sealing cover 84 is closed, the air cylinder 41 is started, the connecting frame 42 drives the lower pressing block 43 to move upwards to be far away from the pressed block 44, the lower pressing block 43 drives the upper bending plate 82 to move upwards, the upper bending plate 82 drives the lantern ring 86 to move, the second return spring 88 is in a compressed state, the lantern ring 86 drives the rotating plate 85 to rotate to form a notch, the torsion spring 87 is in a compressed state, the auxiliary material flows into the material containing frame 73, part of the raw material is pulled out to be placed on the soft pillow table 71, the raw material is continuously pulled to move rightwards, the auxiliary material can be uniformly coated on the raw material, the raw material and the auxiliary material are placed on the pressed block 44, the connecting frame 42 drives the lower pressing block 43 to move, the second return spring 88 is returned to the initial state, the second return spring 88 drives the lantern ring 86 to move, and the torsion spring 87 is returned to the initial state, the torsion spring 87 drives the rotating plate 85 to rotate to close the gap, the lower pressing block 43 contacts the raw materials and the auxiliary materials to be hot-pressed to manufacture the glass fiber plate, the manufactured glass fiber plate is placed between the first cylinder 53 and the second cylinder 54 by people, the first cylinder 53 and the second cylinder 54 move to drive the glass fiber plate to continue moving rightwards, new raw materials are driven to move rightwards at the same time, after the glass fiber plate is completely manufactured, the air cylinder 41 is closed, the glass fiber plate can be taken down, if more glass fiber plates need to be manufactured, the operations are repeated, and people can add the auxiliary materials conveniently.

Still including receiving mechanism 9, be equipped with receiving mechanism 9 on workstation 2, receiving mechanism 9 is including receiving storage bucket 91, wheel 92, handrail 93, fixing bridge 94, plug 95, staple 96 and

third reset spring

97, 2 bottom right sides of workstation are equipped with two fixing bridges 94, equal slidingtype is equipped with plug 95 in two fixing bridges 94, two fixing bridge 94 bottoms are all slidingtype and are equipped with two staple 96, staple 96 and plug 95 cooperation, equal third reset spring 97 on the staple 96, third reset spring 97 is connected with fixing bridge 94 and staple 96, two plug 95 right sides are connected with and connect storage bucket 91, receiving storage bucket 91 bottom is equipped with two wheels 92, receiving storage bucket 91 right side is equipped with handrail 93.

The armrest 93 is pushed to move leftwards, the armrest 93 drives the receiving barrel 91 to move leftwards, the receiving barrel 91 drives the wheel 92 to move, the receiving barrel 91 drives the plug 95 to move leftwards, the plug 95 is inserted into the fixed bridge 94, the plug 95 drives the fixed nail 96 to move downwards, the fixed nail 96 tightly clamps the plug 95, the third reset spring 97 is changed into a compressed state, the raw material is firstly wound on the scroll 32, the auxiliary material is added into the material containing frame 83, the air cylinder 41 is started, the connecting frame 42 drives the lower pressing block 43 to move upwards to be far away from the pressed block 44, the lower pressing block 43 drives the upper bending plate 82 to move upwards, the lantern ring 86 drives the rotating plate 85 to rotate to form a gap, the torsion spring 87 is changed into a compressed state, the auxiliary material flows into the material discharging frame 73, part of the raw material is pulled out to be placed on the soft pillow table 71, the raw material is continuously pulled rightwards, the auxiliary material can be uniformly coated on the raw material, the raw material and the auxiliary material are placed on the pressed block 44, the connecting frame 42 drives the lower pressing block 43 to move, the torsion spring 87 drives the rotating plate 85 to rotate to close the gap, the lower pressing block 43 contacts with raw materials and auxiliary materials to be hot-pressed into a glass fiber board, people put the manufactured glass fiber board between the first cylinder 53 and the second cylinder 54, the first cylinder 53 and the second cylinder 54 drive the glass fiber board to continue moving rightwards, simultaneously drive new raw materials to move rightwards, cut the manufactured glass fiber board into the receiving barrel 91, after the glass fiber board is completely manufactured, the cylinder 41 is closed to drive the handrail 93 to move rightwards, the handrail 93 drives the receiving barrel 91 to move rightwards, the receiving barrel 91 drives the wheel 92 to move rightwards, the receiving barrel 91 drives the plug 95 to move rightwards, the plug 95 is far away from the fixed bridge 94, the third return spring 97 returns to the initial state, the third return spring 97 drives the fixed nail 96 to move upwards to return to the original position, people can take out the glass fiber board, and if more glass fiber boards need to be manufactured, the operation is repeated, so that people can collect the glass fiber boards conveniently.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims

1. An extrusion molding apparatus for a glass fiber sheet, comprising:

the device comprises an underframe (1) and a workbench (2), wherein the workbench (2) is arranged on the underframe (1);

the discharging mechanism (3) is arranged on the workbench (2);

the hot-pressing mechanism (4) is arranged on the workbench (2);

the material pulling mechanism (5) is arranged on the workbench (2), and the material pulling mechanism (5) is matched with the hot pressing mechanism (4);

drop feed mechanism (3) including:

the workbench (2) is provided with two connecting plates (31);

a scroll (32), wherein the scroll (32) is rotatably connected between the two connecting plates (31);

the reel (32) is rotatably provided with two round baffles (33);

the hot-pressing mechanism (4) comprises:

the air cylinder (41), two air cylinders (41) are installed at the bottom of the workbench (2);

the connecting frame (42) is connected to the telescopic rods of the two cylinders (41);

the compression block (44) is arranged on the workbench (2);

the lower pressing block (43) is arranged on the workbench (2) in a sliding mode, the lower pressing block (43) is connected with the pressed block (44) in a sliding mode, and the lower pressing block (43) is connected with the connecting frame (42);

the four first return springs (45) are wound on the lower pressing block (43), the first return springs (45) are connected with the workbench (2) and the connecting frame (42), the connecting frame (42) is driven to move upwards through the air cylinder (41), the first return springs (45) are enabled to contract, and the lower pressing block (43) is enabled to move upwards;

a lower plug board (46), wherein the lower pressing block (43) is provided with the lower plug board (46);

the material pulling mechanism (5) comprises:

the workbench (2) is provided with two first fixed columns (51);

the motor (52), the motor (52) is installed on the workbench (2);

the two first fixing columns (51) are connected with the first cylinders (53);

the two first fixing columns (51) are connected with the second cylinder (54);

a first belt pulley assembly (57), wherein the first belt pulley assembly (57) is connected between the second cylinder (54) and the output shaft of the motor (52);

the first gear (55) is arranged on the second cylinder (54);

a second gear (56) is arranged on the first fixing column (51) on one side of the second gear (56), and the second gear (56) is meshed with the first gear (55);

a second belt pulley component (58), wherein the second belt pulley component (58) is connected between the second gear (56) and the first cylinder (53);

the switch (59) is arranged on the workbench (2), and the switch (59) is matched with the lower inserting plate (46).

2. An extrusion molding apparatus for a glass fiber sheet as set forth in claim 1, further comprising:

the auxiliary mechanism (6) is arranged on the connecting plate (31);

the assist mechanism (6) includes:

the two connecting plates (31) are respectively provided with a second fixing column (61);

the third cylinders (62) are connected to the two second fixing columns (61);

and the fourth cylinders (63) are connected to the two second fixing columns (61).

3. An extrusion molding apparatus for a glass fiber sheet as set forth in claim 2, further comprising:

the gluing mechanism (7) is arranged on the connecting plate (31), and the gluing mechanism (7) is connected with the workbench (2);

the gluing mechanism (7) comprises:

a soft pillow table (71), wherein the soft pillow table (71) is arranged on the workbench (2);

the two connecting plates (31) are respectively provided with a first connecting round rod (72);

the blanking frame (73) is connected between the two first connecting round rods (72), and the blanking frame (73) is matched with the soft pillow table (71).

4. An extrusion molding apparatus for a glass fiber sheet as set forth in claim 3, further comprising:

the packing mechanism (8) is arranged on the connecting plate (31), and the packing mechanism (8) is matched with the blanking frame (73);

the filling mechanism (8) comprises:

the two connecting plates (31) are respectively provided with a second connecting round rod (81);

the material containing frame (83) is connected between the two second connecting round rods (81);

the upper bending plate (82) and the lower pressing block (43) are provided with two upper bending plates (82);

the sealing cover (84) is rotationally connected with the material containing frame (83);

the rotating plate (85) is connected with the material containing frame (83) in a rotating mode;

the rotating plate (85) is provided with two lantern rings (86), and the lantern rings (86) are matched with the upper bending plate (82);

the rotating plate (85) is wound with two torsion springs (87), and the torsion springs (87) are connected with the material containing frame (83) and the rotating plate (85);

and two second return springs (88) are wound on the rotating plate (85), and the second return springs (88) are connected with the rotating plate (85) and the lantern ring (86).

5. An extrusion molding apparatus for a glass fiber sheet as set forth in claim 4, further comprising:

the material receiving mechanism (9) is arranged on the workbench (2);

receiving mechanism (9) including:

the workbench (2) is provided with two fixed bridges (94);

the plugs (95) are arranged in the two fixed bridges (94) in a sliding manner;

the two fixing bridges (94) are provided with two fixing nails (96) in a sliding manner, and the fixing nails (96) are matched with the plug (95);

the fixing nails (96) are all provided with third return springs (97), and the third return springs (97) are connected with the fixing bridges (94) and the fixing nails (96);

the two plugs (95) are connected with the receiving barrel (91);

the wheel (92) is arranged on the material receiving barrel (91);

the handrail (93) is arranged on the material receiving barrel (91).