CN113524476B

CN113524476B - System for fine automatic blending of resin glass

Info

Publication number: CN113524476B
Application number: CN202110798391.6A
Authority: CN
Inventors: 卢子鬯; 钟伟权; 陈志伟
Original assignee: Bians Dongguan Thermosetting Composite Material Co ltd
Current assignee: Bians Dongguan Thermosetting Composite Material Co ltd
Priority date: 2021-07-15
Filing date: 2021-07-15
Publication date: 2023-03-21
Anticipated expiration: 2041-07-15
Also published as: CN113524476A

Abstract

The invention relates to the technical field of automatic batching, and discloses a system for automatically batching resin glass fibers, which comprises a bottom plate fixing device, wherein two driving devices are arranged at two ends inside the bottom plate fixing device, a linkage device is arranged inside the bottom plate fixing device, and a bearing device is arranged at the upper end of the linkage device.

Description

System for fine automatic blending of resin glass

Technical Field

The invention relates to the technical field of automatic batching, in particular to a system for automatically batching resin glass fibers.

Background

The resin glass fiber is an inorganic non-metallic material with excellent performance, has various varieties, has the advantages of good insulativity, strong heat resistance, good corrosion resistance and high mechanical strength, but has the defects of brittle performance and poor wear resistance. The hair-protecting and hair-protecting fiber is prepared by using resin, pyrophyllite, quartz sand, limestone, dolomite, borocalcite and boromagnesite as raw materials and through high-temperature melting, wire drawing, winding, weaving and other processes, wherein the diameter of each monofilament ranges from several micrometers to twenty micrometers, which is equivalent to 1/20-1/5 of one hair, and each fiber precursor bundle consists of hundreds of even thousands of monofilaments. Glass fibers are commonly used as reinforcing materials in composite materials, electrical and thermal insulation materials, circuit substrates, and other various fields of the national economy.

The raw materials are required to be fully mixed when the resin glass fiber is mixed before high-temperature melting, so that the raw materials can be fully mixed when the resin glass fiber is melted at subsequent high temperature, the wire drawing quality is improved, the mixing of the existing resin glass fiber automatic mixing system is not uniform enough, and particularly, the semi-solid material of the resin is difficult to be uniformly mixed with other materials.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a system for automatically batching resin glass fibers, which has the advantages of fully mixing raw materials and the like, and solves the problem that the raw materials cannot be fully mixed during batching.

Two technical schemes

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a fine automatic blending's of resin system, bottom plate fixing device's inside both ends are provided with two drive arrangement, bottom plate fixing device's inside is provided with aggregate unit, aggregate unit's upper end is provided with accepting device, accepting device's upper end is provided with agitating unit, agitating unit and bottom plate fixing device's upper end is provided with batching placer, batching placer's upper end middle part fixedly connected with batching import device, bottom plate fixing device includes that device bottom plate, bottom plate place hole and bottom plate rotation hole, the upper surface middle part of device bottom plate has been seted up the bottom plate and has been placed the hole, the rectangular hole that the hole runs through from top to bottom is placed to the bottom plate, the bottom plate is placed hole both sides surface middle part and has been seted up the bottom plate and has been rotated the hole, a side surface middle part fixedly connected with of device bottom plate drives the motor.

Preferably, the drive device includes the drive pole, drives the board and drives the post, the drive pole is radius size and bottom plate rotation hole radius size assorted cylinder pole, the one end fixedly connected with drive board that drives the pole, the drive board is the circular slab, the one end and the drive pole fixed connection of drive board, the other end upside fixedly connected with of drive board drive the post, the drive post is the cylinder piece, the other end of drive pole inserts the inside that the bottom plate rotated the hole, drives the board and sets up and places downthehole portion in the bottom plate, and wherein the drive pole of one end is connected with driving motor.

Preferably, the supporting device is including accepting the square post, accepting the main tributary hole and accepting the spring, it has seted up at square post upper surface middle part and accepts the main tributary hole to accept the square post, it is radius size and linkage main tributary assorted circular port to accept the main tributary hole, it accepts square post upper surface middle part and accepts the main tributary hole outer lane fixedly connected with and accepts the spring to accept square post upper surface both ends fixedly connected with and accepts the spliced pole, it is radius size and the same cylinder pole of linkage main tributary post size to accept the spliced pole, it accepts and places the board to accept the last fixed surface of spliced pole and be the ring piece, it is the same with accepting the main tributary hole to accept to place board inner circle radius size, it has seted up and accepts the rotation annular groove to accept the board upper surface middle part, it is the annular groove to accept the rotation annular groove, linkage main tributary post upper end is passed and is accepted the main tributary hole, accepts the spring and is accepted the inboard portion of board.

Preferably, agitating unit is including stirring the mobile jib, stirring the main tributary hole and rotating thread groove, stirring mobile jib upper surface middle part has been seted up and has been stirred the main tributary hole, stir the main tributary hole and be the circular port that radius size and linkage king post are the same, stir the inside rotating thread groove that has seted up of main tributary hole, stir mobile jib lower surface middle part fixedly connected with stirring rotating ring piece, stir rotating ring piece for the size with accept rotating ring groove assorted ring piece, stir rotating ring piece lower extreme insert accept rotating ring inslot, stir mobile jib both sides surface middle part and seted up stirring removal hole, it is provided with the stirring mobile jib both ends, stir the mobile jib size and stir the mobile phase matching, the one end of stirring the mobile jib is fixed with stirring arc board, stirring arc board is the arc board, stir mobile jib other end fixedly connected with stirring spring, inside stirring mobile jib and stirring spring insert stirring mobile jib, stirring spring and stirring inside side surface fixed connection, linkage king post upper end is passed and is stirred the main tributary hole and is rotated the rotating ring piece inside.

Preferably, the batching placer places the piece, removes business turn over hole and joint support pole including the batching, the batching is placed the piece and is the hollow cylinder piece, the batching is placed a bottom and is seted up three removal business turn over hole of controlling evenly distributed, bottom plate fixing device is the circular port that runs through from top to bottom, remove business turn over hole radius size and linkage king post phase-match, both ends fixedly connected with joint support pole about the lower surface that the piece was placed to the batching, the linkage king post and accept the spliced pole upper end insert the batching by removing business turn over hole and place inside the piece, accept and place board and agitating unit set up inside the piece is placed to the batching, accept the spring upper end and place a fixed surface connection under the piece with the batching, fixed surface is connected on joint support pole lower surface and the device bottom plate.

Preferably, batching import device includes import case, import groove and outlet hole, evenly distributed's import groove about import case upper surface is seted up, the outlet hole has been seted up at import inslot portion lower surface middle part, and export shifting chute has been seted up at the inside rear surface middle part of outlet hole, export shifting chute lower surface middle part has been seted up and has been exported the fixed orifices, export the fixed orifices for the rectangular hole that runs through from top to bottom, export the inside moving chute that is provided with of shifting chute, shift baffle lower surface front end middle part threaded connection has a fixing stud, and the fixed stud lower extreme is worn out the export fixed orifices, import case lower extreme is provided with the import pipe, import pipe upper end is relative with export shifting chute, and import pipe upper surface and import case lower fixed surface are connected, import pipe lower surface and batching place a fixed surface and be connected, import pipe and batching and place a intercommunication.

Three beneficial effects

Compared with the prior art, the invention provides a system for automatically batching resin glass fibers, which has the following beneficial effects:

1. this system of fine automatic blending of resin glass, through being provided with in the import groove and fixing stud, place the batching of different cub sizes in the import groove of difference, unscrew fixing stud, according to different cub sizes of ingredients, the pulling removes the baffle, adjust the opening of equidimension exit hole not, make various size batching can evenly fall to import inside the pipe, make the batching can be even fall to the batching by the import pipe and place inside the piece, make various batching automatic homogeneous mixing, with this degree of consistency that improves the batching and mix, effectively help the batching to mix.

2. This fine automatic blending's of resin glass system, place the piece and drive the motor through being provided with the batching, the batching gets into the batching and places when the piece is interior, open and drive the motor, it rotates to drive the drive pole, with this through driving the post and being connected with linkage post ring piece, it reciprocates to drive linkage king post, when linkage king post downstream, rotation thread piece drives with rotation thread groove screw thread, make to mix the mobile jib and accept and place the board upper surface rotation, place the inside rotation of piece and mix in the batching with this stirring batching, effectively improve mixed effect with this.

3. This fine automatic blending's of resin system, through being provided with stirring arc board and stirring spring, when stirring the mobile jib rotates, through centrifugal force effect down, stir the arc board and will stimulate stirring spring, stir the movable rod and remove downthehole outside removal stirring of stirring, with this realization wider stirring, promote stirring effect, along with the rotation of drive rod, the linkage principal post will stop the downstream, stir the mobile jib at this moment and will stall, stir the spring and will release elastic potential energy, will stir the movable rod and inwards pull back, with this when will rotating outside the batching that removes inwards pull back, so that the batching can both participate in stirring when next round stirs, effectively promote the batching and stir mixed effect.

4. This fine automatic blending's of resin system, through being provided with the linkage fore-set and accepting the square post, along with the rotation of drive pole, the linkage main prop will the rebound, contact with accepting the square post lower surface until linkage fore-set upper surface, will promote the accepting device and move upwards this moment, make and accept the batching vibration upwards of placing the board upper end, when the linkage main prop moves downwards, accept the spring and will release elastic potential energy and will accept and place the board vibration downwards, with this realization mixed to the repeated vibration of batching, avoid the batching and the device surface adhesion of this kind of semi-solid state of resin, realize the fine better mixed effect of batching of resin glass.

Drawings

FIG. 1 is a schematic view of a front view of a system for automatic compounding of resin glass fibers;

FIG. 2 is a schematic view of an explosion structure of a system for automatic compounding of resin glass fibers;

FIG. 3 is a schematic structural view of a system bottom plate fixing device for automatic resin glass fiber blending;

FIG. 4 is a schematic view of a system driving device for automatic resin glass fiber blending;

FIG. 5 is a schematic view of a linkage system for automatic resin glass fiber blending;

FIG. 6 is a schematic view of a system supporting device for automatic resin glass fiber blending;

FIG. 7 is a schematic view of a stirring device of a system for automatic compounding of resin glass fibers;

FIG. 8 is a schematic view of a system for automatic resin glass fiber blending and placing device;

FIG. 9 is a schematic view of an explosion structure of a system material inlet device for automatic resin glass fiber material mixing;

FIG. 10 is a schematic view of the bottom structure of an inlet box of a system for automatic compounding of resin glass fibers.

In the figure: 1. a base plate fixing device; 2. a driving device; 3. a linkage device; 4. a receiving device; 5. a stirring device; 6. a burden placing device; 7. a ingredient inlet device; 8. a device chassis; 9. a floor placement hole; 10. a bottom plate rotation hole; 11. driving a motor; 12. driving the rod; 13. driving the plate; 14. driving the column; 15. a linkage post rod; 16. linking the column ring block; 17. a linkage fixing block; 18. the column is driven in a linkage manner; 19. linking the top pillar; 20. linking the main columns; 21. rotating the thread block; 22. a rectangular column is received; 23. receiving the main hole; 24. a receiving spring; 25. a connecting column is connected; 26. carrying and placing plates; 27. a rotary ring groove is received; 28. stirring the main rod; 29. agitating the main hole; 30. rotating the thread groove; 31. agitating the rotating ring block; 32. agitating the moving hole; 33. agitating the moving bar; 34. agitating the arc plate; 35. a stirring spring; 36. placing the ingredients in blocks; 37. moving the inlet and outlet holes; 38. connecting the supporting rods; 39. an inlet box; 40. an inlet slot; 41. an outlet aperture; 42. an outlet moving chute; 43. an outlet fixing hole; 44. moving the baffle; 45. fixing the stud; 46. an inlet pipe.

Detailed Description

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

As the introduction of the background art, the prior art has shortcomings, and in order to solve the above technical problems, the present application provides a system for automatic batching resin glass fibers.

In a typical embodiment of this application, as shown in fig. 1-10, a fine automatic blending's of resin system, including bottom plate fixing device 1, the inside both ends of bottom plate fixing device 1 are provided with two drive arrangement 2, the inside of bottom plate fixing device 1 is provided with linkage 3, linkage 3's upper end is provided with receiving arrangement 4, receiving arrangement 4's upper end is provided with agitating unit 5, agitating unit 5 and bottom plate fixing device 1's upper end is provided with batching placer 6, the upper end middle part fixedly connected with batching import device 7 of batching placer 6, bottom plate fixing device 1 includes that device bottom plate 8, bottom plate place hole 9 and bottom plate rotate hole 10, device bottom plate 8's upper surface middle part has been seted up the bottom plate and has been placed hole 9, the bottom plate is placed the rectangular hole 9 and is the upper and lower rectangular hole that runs through, hole 9 both sides surface middle part has been seted up bottom plate rotation hole 10 to the bottom plate, one side surface middle part fixedly connected with of device bottom plate 8 drives motor 11.

Further, in the above scheme, drive device 2 includes drive rod 12, drive plate 13 and drive post 14, drive rod 12 is radius size and bottom plate rotation hole 10 radius size assorted cylinder pole, the one end fixedly connected with drive plate 13 of drive rod 12, drive plate 13 is the circular slab, and the one end and the drive rod 12 fixed connection of drive plate 13, the other end upside fixedly connected with drive post 14 of drive plate 13, drive post 14 is the cylinder piece, the other end of drive rod 12 inserts the inside that bottom plate rotates hole 10, and drive plate 13 sets up inside hole 9 is placed to the bottom plate, and wherein the drive rod 12 and the driving motor 11 of one end are connected, and driving motor 11 can drive rod 12 and rotate.

Further, in the above scheme, the linkage device 3 includes a linkage post rod 15, a linkage post ring block 16 and a linkage fixing block 17, the upper end and the lower end of the linkage post rod 15 are fixedly connected with the linkage post ring block 16, the linkage post ring block 16 is a horizontal ring block, the linkage post ring block 16 located at the lower end is disposed inside the bottom plate placing hole 9, the driving post 14 is inserted into the linkage post ring block 16 located at the lower end to be connected in a rotating manner, the upper end of the linkage post rod 15 is provided with the linkage fixing block 17, the linkage fixing block 17 is a rectangular block, a rectangular hole is formed in the middle of the lower end of the front surface of the linkage fixing block 17, the middle of the left side and the right side inside the linkage fixing block 17 is fixedly connected with a linkage driving post 18, the linkage post ring block 16 located at the upper end is disposed inside the linkage fixing block 17, the linkage driving post 18 is inserted into the linkage post ring block 16 located at the upper end to be connected in a rotating manner, the middle of the upper surface of the linkage fixing block 17 is fixedly connected with a linkage post 19, the linkage post 19 is a cylindrical block 19, the linkage post 19 is connected with a linkage post block 20, and a linkage post block 21 is connected with the linkage post block 16 in a rotating manner, and a linkage post block capable of rotating manner, and a screw thread is provided with the linkage post block 20.

Further, in above-mentioned scheme, receiving device 4 is including accepting square post 22, accepting the main bore 23 and accepting spring 24, accept square post 22 upper surface middle part and seted up and accept main bore 23, accept main bore 23 for radius size and linkage main post 20 assorted circular port, accept square post 22 upper surface middle part and accept main bore 23 outer lane fixedly connected with and accept spring 24, accept square post 22 upper surface both ends fixedly connected with and accept spliced pole 25, accept spliced pole 25 for radius size and the same cylinder pole of linkage main post 20 size, the last fixed surface who accepts spliced pole 25 is connected with and accepts and places board 26, it is the ring piece to accept and place board 26, it is the same with accepting main bore 23 to accept and place board 26 inner circle radius size, accept and to place board 26 upper surface middle part and seted up and accept rotation annular 27, it is the ring groove to accept rotation annular 27, linkage main post 20 upper end is passed and accepts main bore 23, accepts spring 24 and accepts and places board 26 inside, accepts board 26 and will be in chatting direct contact to place board 26.

Further, in the above-mentioned scheme, the stirring device 5 includes the stirring main rod 28, stirs main hole 29 and rotates the thread groove 30, stirring main rod 28 upper surface middle part has been seted up and has been stirred main hole 29, stir main hole 29 and the linkage main post 20 the same circular port of radius size, stirring main hole 29 is inside has seted up the rotation thread groove 30, stirring main rod 28 lower surface middle part fixedly connected with stirs rotating ring piece 31, stirs rotating ring piece 31 for the size with accept rotating ring groove 27 assorted ring piece, stirring rotating ring piece 31 lower extreme inserts accepts inside rotating ring groove 27, stirring main rod 28 both sides surface middle part has seted up stirs the removal hole 32, stirring main rod 28 both ends are provided with stirs the removal pole 33, stirs the removal pole 33 size and stirs removal hole 32 phase-match, the one end of stirring removal pole 33 is fixed with stirs the arc board 34, stirring arc board 34 is the arc board, stirring removal pole 33 other end fixedly connected with stirs the spring 35, stirring removal pole 33 and stirs the spring 35 and insert inside stirring removal pole 28, stirs spring 35 and stirs the inside, stirs the spring 35 and stir the inside surface fixed connection of 28, stir main post 20 side, stir main post 20 on the linkage main post hole and pass main post 20 rotation screw insertion hole and stir main pole and stir main post 20 rotation piece rotation block 30 rotation when stirs the stirring main rod.

Further, in above-mentioned scheme, piece 36, removal business turn over hole 37 and joint support pole 38 are placed including the batching to batching placer 6, the batching is placed piece 36 and is the hollow cylinder piece, the batching is placed piece 36 bottom and is seted up three about evenly distributed's removal business turn over hole 37, bottom plate fixing device 1 is the circular port that runs through from top to bottom, remove business turn over hole 37 radius size and linkage king post 20 phase-match, both ends fixedly connected with joint support pole 38 about the lower surface that piece 36 was placed to the batching, linkage king post 20 and accept the spliced pole 25 upper end insert the batching by removing business turn over hole 37 and place inside piece 36, accept and place board 26 and stirring device 5 and set up inside piece 36 is placed to the batching, accept the spring 24 upper end and place 36 lower fixed surface connection with the batching, joint support pole 38 lower surface and device bottom plate 8 upper surface fixed connection, the batching will get into the batching and place piece 36 internal mixing.

Further, in the above scheme, the ingredient inlet device 7 includes an inlet box 39, an inlet groove 40 and an outlet hole 41, the inlet groove 40 which is uniformly distributed on the left and right is formed in the upper surface of the inlet box 39, the outlet hole 41 is formed in the middle of the lower surface inside the inlet groove 40, the outlet moving groove 42 is formed in the middle of the rear surface inside the outlet hole 41, the outlet fixing hole 43 is formed in the middle of the lower surface of the outlet moving groove 42, the outlet fixing hole 43 is a rectangular hole which penetrates through the outlet fixing hole from top to bottom, a moving baffle 44 is arranged inside the outlet moving groove 42, a fixing stud 45 is in threaded connection with the middle of the front end of the lower surface of the moving baffle 44, the lower end of the fixing stud 45 penetrates through the outlet fixing hole 43, the moving baffle 44 can close the outlet moving groove 42, an inlet pipe 46 is arranged at the lower end of the inlet box 39, the upper end of the inlet pipe 46 is opposite to the outlet moving groove 42, the upper surface of the inlet pipe 46 is fixedly connected to the lower surface of the inlet box 39, the lower surface of the inlet pipe 46 is fixedly connected to the upper surface of the ingredient placing block 36, and the inlet pipe 46 is communicated to the ingredient placing block 36.

In use, ingredients with different volume block sizes are placed in different inlet grooves 40, fixing studs 45 are unscrewed, ingredients with different sizes can be uniformly dropped into inlet pipes 46 according to the sizes of the ingredients with different volumes, moving baffles 44 are pulled, openings of outlet holes 41 with different sizes are adjusted, the ingredients with different sizes can be uniformly dropped into the inlet pipes 46, the ingredients can be uniformly dropped into the ingredients placing blocks 36 through the inlet pipes 46, the ingredients are automatically and uniformly mixed, the uniformity of ingredient mixing is improved, ingredient mixing is effectively facilitated, when the ingredients enter the ingredients placing blocks 36, a driving motor 11 is started, a driving rod 12 is driven to rotate, the ingredients are driven to rotate inside the ingredients placing blocks 36 through connection of a driving column 14 and a linkage column ring block 16, the linkage main column 20 is driven to move up and down, when the linkage main column 20 moves down, a rotating thread block 21 is driven to rotate with a rotating thread groove 30, an agitating main rod 28 rotates on the upper surface of a receiving placing plate 26, the ingredients are stirred to rotate inside the ingredients placing block 36, the mixing effect is effectively improved, when the agitating rod 28 rotates, the agitating arc plate 34 pulls an agitating spring 35 to move the agitating rod 33 to move outside to move the agitating rod 33, the ingredients moving the agitating rod 32 to move back to move the agitating rod to rotate, the agitating rod 20 to effectively improve the agitating effect, when the agitating rod 20, the agitating rod 20 to rotate, the agitating rod 20 to lift up and the agitating rod 20, the agitating rod to lift up and lift up the agitating effect, will promote adapting device 4 rebound this moment for adapting the batching of placing board 26 upper end and upwards vibrating, when linkage king post 20 shifts down, adapting spring 24 will release elastic potential energy and will accept and place board 26 vibration down, with this realization to the repeated vibration of batching mix, avoid the batching and the device surface adhesion of this kind of semi-solid state of resin, realize the fine batching better mixed effect of resin glass.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a fine automatic blending's of resin system, includes bottom plate fixing device (1), its characterized in that: two driving devices (2) are arranged at two ends of the interior of the bottom plate fixing device (1), a linkage device (3) is arranged in the bottom plate fixing device (1), a bearing device (4) is arranged at the upper end of the linkage device (3), a stirring device (5) is arranged at the upper end of the bearing device (4), a batching placing device (6) is arranged at the upper ends of the stirring device (5) and the bottom plate fixing device (1), a batching inlet device (7) is fixedly connected to the middle of the upper end of the batching placing device (6), the bottom plate fixing device (1) comprises a device bottom plate (8), a bottom plate placing hole (9) and a bottom plate rotating hole (10), a bottom plate placing hole (9) is formed in the middle of the upper surface of the device bottom plate (8), the bottom plate placing hole (9) is a rectangular hole which penetrates from top to bottom, bottom plate rotating holes (10) are formed in the middle of the surfaces of two sides of the bottom plate placing hole (9), and a driving motor (11) is fixedly connected to the middle of the surface of one side of the device bottom plate (8);

the driving device (2) comprises a driving rod (12), a driving plate (13) and a driving column (14), the driving rod (12) is a cylindrical rod with the radius matched with that of the bottom plate rotating hole (10), one end of the driving rod (12) is fixedly connected with the driving plate (13), the driving plate (13) is a circular plate, one end of the driving plate (13) is fixedly connected with the driving rod (12), the driving column (14) is fixedly connected to the upper side of the other end of the driving plate (13), the driving column (14) is a cylindrical block, the other end of the driving rod (12) is inserted into the bottom plate rotating hole (10), the driving plate (13) is arranged inside the bottom plate placing hole (9), and the driving rod (12) at one end is connected with the driving motor (11);

the linkage device (3) comprises a linkage post rod (15), a linkage post ring block (16) and a linkage fixing block (17), the upper end and the lower end of the linkage post rod (15) are fixedly connected with a linkage post ring block (16), the linkage column ring block (16) is a horizontal ring block, the linkage column ring block (16) at the lower end is arranged in the bottom plate placing hole (9), the driving column (14) is inserted into the linkage column ring block (16) at the lower end to be rotatably connected, the upper end of the linkage post rod (15) is provided with a linkage fixed block (17), the linkage fixed block (17) is a rectangular block, a rectangular hole is arranged in the middle of the lower end of the front surface of the linkage fixing block (17), the middle parts of the left side and the right side in the linkage fixing block (17) are fixedly connected with a linkage driving column (18), a linkage column ring block (16) positioned at the upper end is arranged in the linkage fixing block (17), the linkage driving column (18) is inserted into the linkage column ring block (16) positioned at the upper end to be rotatably connected, the middle part of the upper surface of the linkage fixing block (17) is fixedly connected with a linkage top post (19), the linkage support pillar (19) is a cylindrical block, the upper end of the linkage support pillar (19) is fixedly connected with a linkage main pillar (20), the linkage main column (20) is a cylindrical rod with the radius less than ten centimeters of the linkage top column (19), the upper end of the linkage main column (20) is provided with a rotary thread block (21);

the bearing device (4) comprises a bearing rectangular column (22), a bearing main hole (23) and a bearing spring (24), the bearing main hole (23) is formed in the middle of the upper surface of the bearing rectangular column (22), the bearing main hole (23) is a circular hole with the radius size matched with that of a linkage main column (20), the bearing main hole (23) is the middle of the upper surface of the bearing rectangular column (22) and is fixedly connected with the bearing spring (24) on the outer ring of the bearing main hole (23), the bearing rectangular column (22) is fixedly connected with two ends of the upper surface of the bearing connecting column (25) to bear the connecting column (25), the bearing connecting column (25) is a cylindrical rod with the radius size being the same as that of the linkage main column (20), the bearing plate (26) is fixedly connected with the upper surface of the bearing connecting column (25) to bear a placing plate (26), the bearing plate (26) is a circular ring block, the bearing plate (26) is the inner ring radius size of the plate (26) being the same as that of the bearing main hole (23), a bearing ring groove (27) is formed in the middle of the upper surface of the bearing plate (26), the bearing ring groove (27) is formed in the bearing ring groove, and the bearing ring groove (27) is formed in the upper end of the linkage column (20) and passes through the main bearing hole (23), the bearing spring bearing hole (24) and the inner end of the linkage main bearing plate (24);

stirring device (5) are including stirring mobile jib (28), stirring owner hole (29) and rotation thread groove (30), stirring mobile jib (28) upper surface middle part has been seted up and has been stirred owner hole (29), stir owner hole (29) and the same circular port of linkage owner post (20) for radius size, stir inside rotation thread groove (30) of having seted up of owner hole (29).

2. The system for automatically batching resin fiberglass as claimed in claim 1, wherein: mix mobile jib (28) lower surface middle part fixedly connected with and stir rotating ring piece (31), stir rotating ring piece (31) for the size with accept rotating ring groove (27) assorted ring piece, stir rotating ring piece (31) lower extreme and insert and accept rotating ring groove (27) inside, stir mobile jib (28) both sides surface middle part and seted up stirring removal hole (32), stir mobile jib (28) both ends and be provided with stirring removal pole (33), stirring removal pole (33) size and stirring removal hole (32) phase-match, the one end of stirring removal pole (33) is fixed with stirs arc plate (34), stir arc plate (34) is the arc, stir mobile jib (33) other end fixedly connected with stirs spring (35), stir mobile jib (28) inside stirring removal pole (33) and stirring spring (35) insert stirring mobile jib (28), stir spring (35) and stir mobile jib (28) inside side surface fixed connection, linkage king post (20) upper end is passed and is stirred main hole (29) and stirs the inside rotating ring piece (31).

3. The system for automatically batching resin fiberglass as claimed in claim 1, wherein: batching placer (6) place piece (36), remove business turn over hole (37) and joint support pole (38) including the batching, the batching is placed piece (36) and is hollow cylinder piece, the batching is placed piece (36) bottom and is seted up three removal business turn over hole (37) of controlling evenly distributed, bottom plate fixing device (1) is the circular port that runs through from top to bottom, remove business turn over hole (37) radius size and linkage king post (20) phase-match, both ends fixedly connected with joint support pole (38) about the lower surface that piece (36) were placed to the batching, linkage king post (20) and accept spliced pole (25) upper end insert the batching by removing business turn over hole (37) and place inside piece (36), the batching is placed piece (36) lower surface and is accepted spring (24) upper end and fixed connection, joint support pole (38) lower surface and device bottom plate (8) upper surface fixed connection.

4. The system for automatically batching resin fiberglass as claimed in claim 1, wherein: batching import device (7) are including import case (39), import groove (40) and outlet hole (41), evenly distributed's import groove (40) about import case (39) upper surface is seted up, outlet hole (41) have been seted up at the inside lower surface middle part of import groove (40), and export shifting chute (42) have been seted up at the inside rear surface middle part of outlet hole (41), export shifting chute (42) lower surface middle part has been seted up export fixed orifices (43), export fixed orifices (43) are the rectangular hole that runs through from top to bottom, export shifting chute (42) inside is provided with movable baffle (44), movable baffle (44) lower surface front end middle part threaded connection has fixed stud (45), and fixed stud (45) lower extreme is worn out export fixed orifices (43), import case (39) lower extreme is provided with import pipe (46), import pipe (46) upper end is relative with export shifting chute (42), and import pipe (46) upper surface and import case (39) lower surface fixed connection, import pipe (46) lower surface and batching place block (36) upper surface fixed connection, import pipe (46) and batching and place block (36) intercommunication.