CN107970870A - A kind of mixing plant for being used for glass fibre production based on Internet of Things - Google Patents

Abstract

The present invention relates to a kind of mixing plant for being used for glass fibre production based on Internet of Things, including main body, feed pipe and discharge nozzle, processing mechanism and extraction sector are further included, processing mechanism includes separation assembly and shredder assemblies, and extraction sector includes housing, control assembly and vacuum elements.This is used in the mixing plant of glass fibre production based on Internet of Things, pass through processing mechanism, screening separation and tinyization can be carried out to the solid material of bulk, consequently facilitating follow-up stirring, so that fully reacted between raw material, shorten mixing time, improve stirring efficiency, the solid material of bulk is prevented in whipping process, equipment is caused to damage the inside for hitting main body, pass through extraction sector, the air and objectionable impurities of body interior can be extracted out, gas is reduced to incorporate in the slurries of stirring, coordinate stirring, the bubble in slurries can be removed, improve the product quality of follow-up glass fibre processing, improve the practicality of mixing plant.

Description

A kind of mixing plant for being used for glass fibre production based on Internet of Things

Technical field

It is more particularly to a kind of that stirring for glass fibre production is used for based on Internet of Things the present invention relates to new material apparatus field Mixing equipment.

Background technology

New material refers to some newly-developed or researching and developing, having preeminent performance materials, has than traditional material more For excellent performance.

Glass fibre is exactly a kind of common new material, but for the stirred tank that glass fibre produces in actual use During, still come with some shortcomings, such as when glass fibre produces, it is necessary to first raw material are stirred with heating, still In throwing raw materials, in the presence of the solid material of bulk, the efficiency of stirring can not only be had an impact, but also stirring During, equipment may be caused to damage, reduce the practicality of equipment, in addition, in whipping process, some gases can be produced Impurity, once these gaseous impurities or air are entered in the slurries of stirring, can to produce bubble in the slurries of stirring, from And follow-up glass fibre production is impacted, reduce the reliability of equipment.

The content of the invention

The technical problem to be solved in the present invention is：It is a kind of based on Internet of Things in order to overcome the deficiencies of the prior art and provide Mixing plant for glass fibre production.

The technical solution adopted by the present invention to solve the technical problems is：A kind of glass fibre that is used for based on Internet of Things is given birth to The mixing plant of production, including main body, feed pipe and discharge nozzle, further include processing mechanism and extraction sector, and the processing mechanism is set Put and be arranged on the side of main body in the inside of main body, the extraction sector；

The processing mechanism includes separation assembly and shredder assemblies, and the shredder assemblies are arranged on the side of separation assembly, The separation assembly is sequentially connected with shredder assemblies；

The separation assembly includes the first motor, the first turntable, the second turntable, connecting rod, casing, bolter and spring, First motor is vertically provided at the inside of main body, and first motor and the first turntable are sequentially connected, first turntable Lower section be equipped with several hemispherical projections, each protrusion is circumferentially uniformly distributed along the center of circle of the first turntable, second turntable The lower section of the first turntable is horizontally set on, there are several hemispherical concave blocks on second turntable, each concave block is along the second turntable The center of circle be circumferentially uniformly distributed, it is described it is raised correspond and be mutually matched with concave block, raised and the second turntable the wheel face Against the connecting rod is vertically arranged, and the connecting rod is cuboid, and the top of the connecting rod below the second turntable with connecting Connect, the bottom of the connecting rod is connected with bolter, and the bolter is horizontally set on the lower section of feed pipe, and described sleeve pipe is arranged In connecting rod, described sleeve pipe is slidably connected with connecting rod, and described sleeve pipe is fixed on the inside of main body, and the spring is vertically arranged In the lower section of bolter, the spring has two, and two springs are separately positioned on the both sides of bolter, and the bolter passes through bullet The inside of spring and main body connects；

The shredder assemblies include power unit and pulverizing unit, and the power unit is sequentially connected with pulverizing unit；

The pulverizing unit includes cylinder, runner and pulverizing chamber, and the pulverizing chamber is arranged on the side of bolter, the gas Cylinder is vertically provided at the lower section of power unit, and the gas bar of the cylinder is connected with runner, and the runner is horizontally set on pulverizing chamber Inside, the lower section of the runner is equipped with some first crushing tooths, and each first crushing tooth is circumferentially uniformly distributed along the runner center of circle；

The extraction sector includes housing, control assembly and vacuum elements, and the housing is arranged on the side of main body, described Control assembly and vacuum elements are arranged at the inside of housing, and the control assembly is sequentially connected with vacuum elements；

The vacuum elements include drive chamber, air inlet pipe, air outlet pipe, piston and baffle, and the drive chamber is vertically provided at The top of control assembly, one end of the air inlet pipe are arranged on the inside of main body, the other end of the air inlet pipe and drive chamber Top connects, and the air outlet pipe is arranged on the side of the lower section of drive chamber, and the piston is horizontally set on the inside of drive chamber, institute State piston to match with the inner wall of drive chamber, the inner wall of the piston and drive chamber is slidably connected, and the piston is equipped with through hole, institute State that through hole is vertically arranged, the baffle is horizontally set on the lower section of through hole, and the baffle is matched with through hole, one end of the baffle With piston hinge.

Preferably, in order to make the first motor-driven cylinder rotate, the power unit include driving wheel, transmission belt, from Driving wheel and shaft, the driving wheel are coaxially disposed with the first turntable, and first motor is connected with capstan drive, the shaft Vertically arranged, the driven wheel is set in shaft, and the shaft is connected by bearing block and the inner wall of main body, the transmission belt Horizontally disposed, the driving wheel is sequentially connected by transmission belt and driven wheel, and the cylinder is vertically provided at the lower section of driven wheel, The driven wheel drive cylinder rotation.

Preferably, in order to which control piston moves up and down, the control assembly includes the second motor, driving wheel, the first company Bar and second connecting rod, second motor are horizontally set on the inside of housing, and second motor is sequentially connected with driving wheel, institute State one end of first connecting rod and the remote circle centre position of driving wheel is hinged, the other end of the first connecting rod and one end of second connecting rod Hinged, the other end of the second connecting rod and the lower section of piston connect, and the second connecting rod is vertically arranged.

Preferably, in order to which the bulk solid raw material after screening is sent into pulverizing chamber, the main body is internally provided with connection Pipe, the bolter are connected by connecting tube with pulverizing chamber.

Preferably, in order to improve crushing effect, the lower section of the inner wall of the pulverizing chamber is equipped with some second crushing tooths, respectively Second crushing tooth is evenly distributed on the lower section of the inner wall of pulverizing chamber, and first crushing tooth and the second crushing tooth face are set.

Preferably, in order to which the raw material after crushing is discharged, the lower section of the pulverizing chamber is equipped with discharge port.

Preferably, in order to carry out signal transmission, so that remote control equipment, the main body is internally provided with antenna.

Preferably, in order to control the switch of air inlet pipe, the air inlet pipe is equipped with valve.

Preferably, in order to reset baffle, the hinged place of the baffle and piston is equipped with torsionspring.

Preferably, in order to be worked by PLC control devices, the main body is internally provided with PLC.

The invention has the advantages that should be used for based on Internet of Things in the mixing plant of glass fibre production, pass through place Mechanism is managed, screening separation and tinyization can be carried out to the solid material of bulk, consequently facilitating follow-up stirring so that raw material Between fully react, shorten mixing time, improve stirring efficiency, prevent the solid material of bulk to be hit in whipping process The inside for hitting main body causes to damage to equipment, improves the practicality of equipment, in addition, by the first motor at the same time control screening and The progress of crushed work, saves power cost, and by extraction sector, the air and objectionable impurities of body interior can be carried out Extraction, reduces gas and incorporates in the slurries of stirring, coordinate stirring, can remove the bubble in slurries, improve follow-up glass fibers The product quality of processing is tieed up, improves the practicality and reliability of mixing plant.

Brief description of the drawings

The present invention is further described with reference to the accompanying drawings and examples.

Fig. 1 is the structure diagram of the mixing plant for being used for glass fibre production based on Internet of Things of the present invention；

Fig. 2 is that the structure of the separation assembly of the mixing plant for being used for glass fibre production based on Internet of Things of the present invention is shown It is intended to；

Fig. 3 is that the structure of the shredder assemblies of the mixing plant for being used for glass fibre production based on Internet of Things of the present invention is shown It is intended to；

Fig. 4 is that the structure of the extraction sector of the mixing plant for being used for glass fibre production based on Internet of Things of the present invention is shown It is intended to；

In figure：1. main body, 2. feed pipes, 3. discharge nozzles, 4. first motors, 5. first turntables, 6. second turntables, 7. connections Bar, 8. casings, 9. bolters, 10. springs, 11. connecting tubes, 12. driving wheels, 13. transmission belts, 14. driven wheels, 15. cylinders, 16. runner, 17. pulverizing chambers, 18. discharge ports, 19. housings, 20. drive chamber, 21. air inlet pipe, 22. air outlet pipes, 23. second electricity Machine, 24. driving wheels, 25. first connecting rods, 26. second connecting rods, 27. pistons, 28. baffles.

Embodiment

In conjunction with the accompanying drawings, the present invention is further explained in detail.These attached drawings are simplified schematic diagram, only with Illustration illustrates the basic structure of the present invention, therefore it only shows composition related to the present invention.

As shown in Figure 1, a kind of mixing plant for being used for glass fibre production based on Internet of Things, including main body 1, feed pipe 2 and discharge nozzle 3, processing mechanism and extraction sector are further included, the processing mechanism is arranged on the inside of main body 1, the air exhauster Structure is arranged on the side of main body 1；

By processing mechanism, screening separation and tinyization can be carried out to the solid material of bulk, consequently facilitating subsequently Stirring so that fully reacted between raw material, shorten mixing time, improve stirring efficiency, prevent the solid material of bulk In whipping process, the inside for hitting main body 1 causes to damage to equipment, the practicality of equipment is improved, in addition, passing through first Motor 4 controls the progress of screening and crushed work at the same time, saves power cost, by extraction sector, can be to main body 1 inside Air and objectionable impurities extracted out, reduce gas incorporate stirring slurries in, coordinate stirring, the gas in slurries can be removed Bubble, improves the product quality of follow-up glass fibre processing, improves the practicality and reliability of mixing plant.

The processing mechanism includes separation assembly and shredder assemblies, and the shredder assemblies are arranged on the side of separation assembly, The separation assembly is sequentially connected with shredder assemblies；

As shown in Fig. 2, the separation assembly includes the first motor 4, the first turntable 5, the second turntable 6, connecting rod 7, casing 8th, bolter 9 and spring 10, first motor 4 are vertically provided at the inside of main body 1,4 and first turntable 5 of the first motor It is sequentially connected, the lower section of first turntable 5 is equipped with several hemispherical projections, each raised center of circle week along the first turntable 5 To being uniformly distributed, second turntable 6 is horizontally set on the lower section of the first turntable 5, has several hemisphere on second turntable 6 Shape concave block, each concave block are circumferentially uniformly distributed along the center of circle of the second turntable 6, the protrusion and concave block one-to-one corresponding and mutual Match somebody with somebody, raised and the second turntable 6 the wheel face is against the connecting rod 7 is vertically arranged, and the connecting rod 7 is cuboid, described The top of connecting rod 7 is connected with the lower section of the second turntable 6, and the bottom of the connecting rod 7 is connected with bolter 9, the bolter 9 The lower section of feed pipe 2 is horizontally set on, described sleeve pipe 8 is set in connecting rod 7, and described sleeve pipe 8 is slidably connected with connecting rod 7, Described sleeve pipe 8 is fixed on the inside of main body 1, and the spring 10 is vertically provided at the lower section of bolter 9, and the spring 10 has two A, two springs 10 are separately positioned on the both sides of bolter 9, and the bolter 9 is connected by spring 10 with the inside of main body 1；

When raw materials for production are put into from feed pipe 2, raw material is deposited on bolter 9, in fact, main body 1 is internally provided with weight Force snesor, detects the mass change on bolter 9, and electric signal is passed to PLC, and PLC controls the first motor 4 to start, the One motor 4 drives the first turntable 5 to rotate, and the first turntable 5 is during rotation, when protrusion is contacted with the wheel face of the second turntable 6 When, the second turntable 6 is pressed down, and drives connecting rod 7 to move down, and connecting rod 7 drives bolter 9 to move down, while spring 10 is compressed, When protrusion turns to concave block, spring 10 extends, and drives bolter 9 to move up, and during the first motor 4 rotates, can make The ceaselessly vertical tremor of bolter 9 is obtained, tiny raw material is shaken off down from bolter 9, larger solid material then leaves Come, it is pulverized to be sent into the wait of pulverizing chamber 17 by connecting tube 11.

As shown in figure 3, the shredder assemblies include power unit and pulverizing unit, the power unit is passed with pulverizing unit Dynamic connection；

The pulverizing unit includes cylinder 15, runner 16 and pulverizing chamber 17, and the pulverizing chamber 17 is arranged on the one of bolter 9 Side, the cylinder 15 are vertically provided at the lower section of power unit, and the gas bar of the cylinder 15 is connected with runner 16, the runner 16 Be horizontally set on the inside of pulverizing chamber 17, the lower section of the runner 16 is equipped with some first crushing tooths, each first crushing tooth along 16 center of circle of runner is circumferentially uniformly distributed；

The power unit includes driving wheel 12, transmission belt 13, driven wheel 14 and shaft, the driving wheel 12 and first turn Disk 5 is coaxially disposed, and first motor 4 is sequentially connected with driving wheel 12, and the shaft is vertically arranged, and the driven wheel 14 is arranged In shaft, the shaft is connected by bearing block with the inner wall of main body 1, and the transmission belt 13 is horizontally disposed, the driving wheel 12 are sequentially connected by transmission belt 13 and driven wheel 14, and the cylinder 15 is vertically provided at the lower section of driven wheel 14, described driven The driving cylinder 15 of wheel 14 rotates；

When needing to carry out pulverizing chamber 17 to bulk solid raw material, since the first motor 4 drives driving wheel 12 to rotate, driving wheel 12 by transmission belt 13 drive driven wheel 14 rotate, driven wheel 14 drive cylinder 15 rotate, cylinder 15 by gas bar so that Runner 16 rotates, and at this time, the collapsing length of the gas bar by controlling cylinder 15, can cause runner 16 in the inside of pulverizing chamber 17 Move up and down, ceaselessly down compress bulk solid raw material, lifted and rotated by the first crushing tooth so that crushed positioned at first Bulk solid raw material between tooth and the second crushing tooth is crushed, easy to follow-up heating stirring.

As shown in figure 4, the extraction sector includes housing 19, control assembly and vacuum elements, the housing 19 is arranged on The side of main body 1, the control assembly and vacuum elements are arranged at the inside of housing 19, the control assembly and vacuum elements It is sequentially connected；

The vacuum elements include drive chamber 20, air inlet pipe 21, air outlet pipe 22, piston 27 and baffle 28, the drive chamber 20 are vertically provided at the top of control assembly, and one end of the air inlet pipe 21 is arranged on the inside of main body 1, the air inlet pipe 21 The other end is connected with the top of drive chamber 20, and the air outlet pipe 22 is arranged on the side of the lower section of drive chamber 20, the piston 27 The inside of drive chamber 20 is horizontally set on, the piston 27 is matched with the inner wall of drive chamber 20, the piston 27 and drive chamber 20 Inner wall be slidably connected, the piston 27 is equipped with through hole, and the through hole is vertically arranged, and the baffle 28 is horizontally set on through hole Lower section, the baffle 28 matches with through hole, and one end of the baffle 28 and piston 27 are hinged；

The control assembly includes the second motor 23, driving wheel 24, first connecting rod 25 and second connecting rod 26, second electricity Machine 23 is horizontally set on the inside of housing 19, and second motor 23 is sequentially connected with driving wheel 24, the first connecting rod 25 One end and the remote circle centre position of driving wheel 24 are hinged, and one end of the other end and second connecting rod 26 of the first connecting rod 25 is hinged, The other end of the second connecting rod 26 is connected with the lower section of piston 27, and the second connecting rod 26 is vertically arranged.

When raw materials for production are stirred, PLC is transmitted signals to by remote controler at this time, the second motor is driven by PLC 23 start, and driving wheel 24 rotates therewith, and driving wheel 24 drives first connecting rod 25 to rotate, and first connecting rod 25 is driven on second connecting rod 26 Lower movement, second connecting rod 26 are moved up and down with piston 27 in the inside of drive chamber 20, and when piston 27 moves down, baffle 28 seals Firmly through hole, while valve is opened, the gas inside main body 1 is pulled out, and when piston 27 moves up, valve is closed, at this time baffle 28 It can be opened due to draught head, the gas extracted out from the inside of main body 1 can be flowed out from the through hole of piston 27, finally by Air outlet pipe 22 is discharged.

Preferably, in order to which the bulk solid raw material after screening is sent into pulverizing chamber 17, the company of being internally provided with of the main body 1 Adapter 11, the bolter 9 are connected by connecting tube 11 with pulverizing chamber 17.

Preferably, in order to improve crushing effect, the lower section of the inner wall of the pulverizing chamber 17 is equipped with some second crushing tooths, Each second crushing tooth is evenly distributed on the lower section of the inner wall of pulverizing chamber 17, and first crushing tooth is set with the second crushing tooth face Put.

Preferably, in order to which the raw material after crushing is discharged, the lower section of the pulverizing chamber 17 is equipped with discharge port 18.

Preferably, in order to carry out signal transmission, so that remote control equipment, the main body 1 is internally provided with antenna.

Preferably, in order to control the switch of air inlet pipe 21, the air inlet pipe 21 is equipped with valve.

Preferably, in order to reset baffle 28, the hinged place of the baffle 28 and piston 27 is equipped with torsionspring.

Preferably, in order to be worked by PLC control devices, the main body 1 is internally provided with PLC.

By separation assembly, screening separation can be carried out to the solid material of bulk, by shredder assemblies, can caused big The solid material of block crushes tinyization, consequently facilitating follow-up stirring so that and fully reacted between raw material, shorten mixing time, Stirring efficiency is improved, prevents the solid material of bulk in whipping process, the inside for hitting main body 1 causes to damage to equipment It is bad, the practicality of equipment is improved, also, control the progress of screening and crushed work at the same time by the first motor 4, save dynamic Power cost, by control assembly, can carry out control to the time of pumping, can be to the sky inside main body 1 by vacuum elements Gas and objectionable impurities are extracted out, are reduced gas and are incorporated in the slurries of stirring, coordinate stirring, can remove the bubble in slurries, Improve the product quality of follow-up glass fibre processing.

Compared with prior art, it should be used for based on Internet of Things in the mixing plant of glass fibre production, and pass through processor Structure, can carry out the solid material of bulk screening separation and tinyization, consequently facilitating follow-up stirring so that between raw material Fully reaction, shortens mixing time, improves stirring efficiency, prevents the solid material of bulk in whipping process, hits master The inside of body 1 causes to damage to equipment, improves the practicality of equipment, in addition, controlling screening and powder at the same time by the first motor 4 The progress of broken work, saves power cost, and by extraction sector, the air inside main body 1 and objectionable impurities can be carried out Extraction, reduces gas and incorporates in the slurries of stirring, coordinate stirring, can remove the bubble in slurries, improve follow-up glass fibers The product quality of processing is tieed up, improves the practicality and reliability of mixing plant.

It is complete by above-mentioned description, relevant staff using the above-mentioned desirable embodiment according to the present invention as enlightenment Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention Property scope is not limited to the content on specification, it is necessary to determines its technical scope according to right.

Claims (10)

1. a kind of mixing plant for being used for glass fibre production based on Internet of Things, including main body (1), feed pipe (2) and discharging Manage (3), it is characterised in that further include processing mechanism and extraction sector, the processing mechanism is arranged on the inside of main body (1), institute State the side that extraction sector is arranged on main body (1)；

The processing mechanism includes separation assembly and shredder assemblies, and the shredder assemblies are arranged on the side of separation assembly, described Separation assembly is sequentially connected with shredder assemblies；

The separation assembly include the first motor (4), the first turntable (5), the second turntable (6), connecting rod (7), casing (8), point From sieve (9) and spring (10), first motor (4) is vertically provided at the inside of main body (1), first motor (4) and the One turntable (5) is sequentially connected, and the lower section of first turntable (5) is equipped with several hemispherical projections, and each protrusion is along first turn The center of circle of disk (5) is circumferentially uniformly distributed, and second turntable (6) is horizontally set on the lower section of the first turntable (5), described second turn Have several hemispherical concave blocks on disk (6), each concave block is circumferentially uniformly distributed along the center of circle of the second turntable (6), it is described it is raised with Concave block is corresponded and is mutually matched, it is described it is raised with the wheel face of the second turntable (6) against, the connecting rod (7) is vertically arranged, The connecting rod (7) is cuboid, and the top of the connecting rod (7) is connected with the lower section of the second turntable (6), the connecting rod (7) bottom is connected with bolter (9), and the bolter (9) is horizontally set on the lower section of feed pipe (2), described sleeve pipe (8) set It is located in connecting rod (7), described sleeve pipe (8) is slidably connected with connecting rod (7), and described sleeve pipe (8) is fixed on the interior of main body (1) Portion, the spring (10) are vertically provided at the lower section of bolter (9), and the spring (10) has two, and two springs (10) are respectively The both sides of bolter (9) are arranged on, the bolter (9) is connected by spring (10) with the inside of main body (1)；

The shredder assemblies include power unit and pulverizing unit, and the power unit is sequentially connected with pulverizing unit；

The pulverizing unit includes cylinder (15), runner (16) and pulverizing chamber (17), and the pulverizing chamber (17) is arranged on bolter (9) side, the cylinder (15) are vertically provided at the lower section of power unit, and gas bar and the runner (16) of the cylinder (15) connect Connect, the runner (16) is horizontally set on the inside of pulverizing chamber (17), and the lower section of the runner (16) is equipped with some first and crushes Tooth, each first crushing tooth are circumferentially uniformly distributed along runner (16) center of circle；

The extraction sector includes housing (19), control assembly and vacuum elements, and the housing (19) is arranged on the one of main body (1) Side, the control assembly and vacuum elements are arranged at the inside of housing (19), and the control assembly connects with vacuum elements transmission Connect；

The vacuum elements include drive chamber (20), air inlet pipe (21), air outlet pipe (22), piston (27) and baffle (28), described Drive chamber (20) is vertically provided at the top of control assembly, and one end of the air inlet pipe (21) is arranged on the inside of main body (1), institute The other end for stating air inlet pipe (21) is connected with the top of drive chamber (20), and the air outlet pipe (22) is arranged under drive chamber (20) The side of side, the piston (27) are horizontally set on the inside of drive chamber (20), and the piston (27) is interior with drive chamber (20) Wall matches, and the piston (27) and the inner wall of drive chamber (20) are slidably connected, and the piston (27) is equipped with through hole, the through hole Vertically arranged, the baffle (28) is horizontally set on the lower section of through hole, and the baffle (28) matches with through hole, the baffle (28) One end and piston (27) it is hinged.

2. the mixing plant for being used for glass fibre production based on Internet of Things as claimed in claim 1, it is characterised in that described Power unit includes driving wheel (12), transmission belt (13), driven wheel (14) and shaft, the driving wheel (12) and the first turntable (5) it is coaxially disposed, first motor (4) is sequentially connected with driving wheel (12), and the shaft is vertically arranged, the driven wheel (14) it is set in shaft, the shaft is connected by bearing block with the inner wall of main body (1), and transmission belt (13) level is set Put, the driving wheel (12) is sequentially connected by transmission belt (13) and driven wheel (14), the cylinder (15) be vertically provided at from The lower section of driving wheel (14), driven wheel (14) driving cylinder (15) rotation.

3. the mixing plant for being used for glass fibre production based on Internet of Things as claimed in claim 1, it is characterised in that described Control assembly includes the second motor (23), driving wheel (24), first connecting rod (25) and second connecting rod (26), second motor (23) inside of housing (19) is horizontally set on, second motor (23) is sequentially connected with driving wheel (24), and described first connects One end of bar (25) and the remote circle centre position of driving wheel (24) are hinged, the other end and second connecting rod of the first connecting rod (25) (26) one end is hinged, and the other end of the second connecting rod (26) is connected with the lower section of piston (27), the second connecting rod (26) It is vertically arranged.

4. the mixing plant for being used for glass fibre production based on Internet of Things as claimed in claim 1, it is characterised in that described Main body (1) is internally provided with connecting tube (11), and the bolter (9) is connected by connecting tube (11) with pulverizing chamber (17).

5. the mixing plant for being used for glass fibre production based on Internet of Things as claimed in claim 1, it is characterised in that described The lower section of the inner wall of pulverizing chamber (17) is equipped with some second crushing tooths, and each second crushing tooth is evenly distributed on the interior of pulverizing chamber (17) The lower section of wall, first crushing tooth and the second crushing tooth face are set.

6. the mixing plant for being used for glass fibre production based on Internet of Things as claimed in claim 1, it is characterised in that described The lower section of pulverizing chamber (17) is equipped with discharge port (18).

7. the mixing plant for being used for glass fibre production based on Internet of Things as claimed in claim 1, it is characterised in that described Main body (1) is internally provided with antenna.

8. the mixing plant for being used for glass fibre production based on Internet of Things as claimed in claim 1, it is characterised in that described Air inlet pipe (21) is equipped with valve.

9. the mixing plant for being used for glass fibre production based on Internet of Things as claimed in claim 1, it is characterised in that described Baffle (28) and the hinged place of piston (27) are equipped with torsionspring.

10. the mixing plant for being used for glass fibre production based on Internet of Things as claimed in claim 1, it is characterised in that institute That states main body (1) is internally provided with PLC.