CN108900592A - A kind of flame glass fibre production Internet of things system - Google Patents

Abstract

The invention discloses a kind of flame glass fibres to produce Internet of things system,By material homogenizer Internet of Things net system,Flame injection material Networking subsystems and glue spraying collection cotton Internet of Things net system three parts are constituted,Signal acquisition module is to material homogenizer Internet of Things net system,Status signal in flame injection material Networking subsystems and glue spraying collection cotton Internet of Things net system is acquired,It is transmitted by the signal transmission module being connect with signal acquisition module,It is handled by the signal processing module being connect with signal transmission module,It can be analyzed according to data information algorithm of the large database concept to transmitting,Form regulation and control instruction,It is fed back by information feedback module,Shorten response regulation time,Signal feedback module feeds back data information to material homogenizer Internet of Things net system,Flame injection material Networking subsystems and glue spraying collection cotton Internet of Things net system,Realize closed loop automation control.

Description

A kind of flame glass fibre production Internet of things system

Technical field

The present invention relates to a kind of production Internet of things system, produce Internet of Things system more particularly to a kind of flame glass fibre System.

Background technique

The production method of mineral wool is broadly divided into two classes at present, is flame method mineral wool and centrifugal injection method glass respectively Cotton.Melten glass is made glass marble, stick or block, melts it again by flame method mineral wool, then wire drawing and through fire Flame is blown into cotton；Centrifugal injection method mineral wool is that wire drawing is at glass fibre under the action of the centrifugal force for the glass metal that will melt, through fire Flame is blown succeeding stretch into mineral wool.Compared to burner blowing process, centrifugal injection method mineral wool is relatively large in diameter, specific surface area compared with It is small, thermal coefficient is larger, acoustic absorptivity is bad, be not able to satisfy high-end field using standard, but centrifugal injection technique tool energy consumption compared with Low, yield is larger, is easy to the advantages that mineral wool is prepared into felt and is widely used to production to glass for building purposes blanket.Flame method Mineral wool is relatively small because of yield in process of production, is not easy to carry out the techniques such as glue spraying and is unfavorable for production to blanket, so one As only with flame method produce flame cellucotton.

But the management of flame glass fiber manufacturing line system is also rested on by manpower to portion each in system at present Part carries out live tracking, monitoring one by one, and waste of human resource is serious, and low efficiency, cannot timely and effectively feed back production linear system The Global Information of system；In addition to the device signal supervision deviateed, there are loopholes, notification technique personnel cannot repair in time, pole Subsequent fiber production is affected greatly.

Internet of Things refers to through various information sensing devices, any required monitoring of acquisition in real time, connection, interaction object or The information of the various needs such as process, the huge network formed in conjunction with internet.The purpose is to realize object and object, object with People, the connection of all articles and network facilitate identification, manage and control.

Therefore, the combination for how realizing Internet of Things and fiberline systems is the comprehensive, real-time of realization line production system The key point of monitoring management.

Application No. is the Chinese invention patent of CN201310309164.8, to disclose a kind of single-layer flame cellucotton felt standby Method includes the following steps：(1) height adjuster is adjusted, triangle curtain conveyer belt is made to match horizontal conveying belt；(2) fiber is through firing The secondary wire drawing in room is burnt into cellucotton, is injected into and is led cotton cylinder；(3) under fan action, cellucotton descends slowly and lightly through Venturi tube, true It is adsorbed on triangle curtain conveyer belt under the action of sky pump, sprays binder through flusher during descending slowly and lightly；(4) binder is sprayed Cellucotton be conveyed to horizontal conveying belt through triangle curtain conveyer belt, and enter curing oven and solidify；(5) the fiber blanket warp after solidifying Coiler clot encapsulation.The single-layer flame fiber blanket of the invention have preferable uniformity, binder covering uniformly, have compared with Good thermal and insulating performance, but it is not directed to Internet of things system.

Application No. is the Chinese invention patents of CN201610834463.7 to disclose a kind of removable noise reducing type flame cotton drawing Silk device, including move kiln, combustion chamber and lead cotton channel, it is characterised in that the removable kiln contains smelting furnace, leakage Plate, sub-wire device, rubber roller, furnace chamber, metal framework and two tracks being parallel to each other, wherein bushing is located at the bottom of smelting furnace, sub-wire Device is located at immediately below bushing at 20~40cm, and rubber roller is located at immediately below sub-wire device at 8~15cm, and furnace chamber is located at 5 immediately below rubber roller At~10cm, the smelting furnace, sub-wire device, rubber roller, furnace chamber are accepted by metal framework is fixed from top to bottom, and metal framework is removable. The invention also discloses a kind of operating procedure of removable noise reducing type flame cotton wire-drawing frame, it is characterised in that including following step Suddenly：(1) heating-up furnace；(2) stablize a glass fiber；(3) kiln is moved to production line main body；(4) it lights a fire, secondary wire drawing；(5) it is closed Baffle carries out wire-drawing operation.Beneficial effect possessed by the invention is：1. operating procedure is simple；2. low noise, but the invention Disclosed preparation method is not directed to Internet of things system.

Application No. is the Chinese invention patents of CN201310260416.2 to disclose the control of micro-fiber glass wool kiln and life Production. art includes the following steps：The first, clean ripe glass blocks (outsourcing) is entered back into fusing through kiln feeding port pre-heating drying 1200 ~ 1400 DEG C of greenhouse heating fusings.The second, the glass metal of fusing through bushing wire drawing and is led into the blowings of jet combustors In the flame that burner sprays.Third, under 1400 DEG C or more high temperature, with blowing burner spray flame glass fiber is made 0.5-4 μm of micro-fiber glass wool.4th, collecting packing fento vinylon and cotton blend.The kiln of the invention controls and simple process, investment at This is low, it can be achieved that industrialized production, has the advantages of stable product quality, improvement working environment, environmental protection, reduction energy consumption, still Internet of Things network control system is not directed to.

Such as above-mentioned several patents, the status of current flame glass fiber manufacturing line is disclosed, but and Internet of things system The application combined also rarely has and refers to, haves the defects that certain, and therefore, urgent need develops a kind of flame glass fibre production Internet of Things System.

Summary of the invention

The purpose of the present invention overcomes the shortcomings of the prior art, and provides a kind of flame glass fibre production Internet of Things system System.

The technical solution adopted to achieve the purpose of the present invention is：A kind of flame glass fibre production Internet of things system, By material homogenizer Internet of Things net system, flame injection material Networking subsystems and glue spraying collection cotton Internet of Things net system three parts structure At, it is characterised in that the material homogenizer Internet of Things net system is by high-temperature measurement instrument 10, in-line viscometer 20 and horizontal CCD phase Machine 30 is constituted, and the flame injection material Networking subsystems are made of gas flowmeter 70 and online tachometer of measuring 80；The spray Glue collection cotton Internet of Things net system is made of fluid flowmeter 40, pressure sensor 60 and vertical CCD camera 50；Signal acquisition module To the status signal in material homogenizer Internet of Things net system, flame injection material Networking subsystems and glue spraying collection cotton Internet of Things net system It is acquired, is transmitted by the signal transmission module being connect with signal acquisition module, by what is connect with signal transmission module Signal processing module is handled, and data information is fed back to material homogenizer Internet of Things net system, flame and sprayed by signal feedback module Internet of Things net system and glue spraying collection cotton Internet of Things net system are blown, realizes closed loop automation control.

Further, the high-temperature measurement instrument 10 detects material homogenizer Internet of Things net system high temperature kiln entrance 1 Temperature, in-line viscometer 20 detect 2 viscosity of glass metal at high temperature kiln alloy bushing, and horizontal CCD camera 30 detects high temperature kiln 3 temperature of stock and flow velocity are flowed at bushing；The gas flowmeter 70 detects natural at burner in flame injection material Networking subsystems 7 air-flow velocity of gas, online tachometer of measuring 80 detect 8 revolving speed of rubber roller；The pressure sensor 60 monitors glue spraying collection cotton Internet of Things 6 negative pressure of perforated conveyor belt in net system, fluid flowmeter 40 detect 4 glue spraying speed of glue-spraying device and total amount, vertical CCD camera 50 detection 5 thickness of conveyer belt blanket.

Further, the signal acquisition module and high-temperature measurement instrument 10, in-line viscometer 20, horizontal CCD camera 30, gas Flowmeter body 70, online tachometer of measuring 80, pressure sensor 60, fluid flowmeter 40 are connected with vertical CCD camera 50, are used for Acquisition state signal.

Further, related status information in information acquisition module is converted identifiable number by the information transmission modular It is believed that number and pass to message processing module.

Further, the message processing module analyzes the data-signal in information transmission modular, and will transmitting Data information and central processing unit in prestore line production system information and compare；The also integrated big number of the message processing module According to analysis module, it can be analyzed according to data information algorithm of the large database concept to transmitting, regulation and control instruction be formed, by information feedback module It is fed back, shortens response regulation time.

Further, the information feedback module further includes alarm, is blown with material homogenizer Internet of Things net system, flame Internet of Things net system is connected with glue spraying collection cotton Internet of Things net system, when the deviation of signal of line production system each section is more than certain journey When spending, the alarm in information feedback module is sounded an alarm.

The beneficial effects of the invention are as follows：Compared with prior art, the present invention produces Internet of Things and traditional flame fiber Linear system system combines, and acquires line production system data-signal by information acquisition module, believes each variation through information transmission modular Breath passes to message processing module, is judged by message processing module, and integrated data base carries out algorithm analysis, realizes that feedback is adjusted Section, guarantees the normal use of line production system, guarantees the normal preparation of subsequent blanket conscientiously, using simple, conveniently.

Detailed description of the invention

Fig. 1 is a kind of flame glass fibre production Internet of things system monitoring signals schematic diagram, wherein 10 be high-temperature measurement instrument, 1 is high temperature kiln entrance, and 20 be in-line viscometer, and 2 be glass metal at high temperature kiln alloy bushing, and 30 be horizontal CCD camera, 3 is flow stock at high temperature kiln bushing, 40 be fluid flowmeter, and 4 be glue-spraying device, and 50 be vertical CCD camera, and 5 be conveyer belt cotton Felt, 60 be pressure sensor, and 6 be perforated conveyor belt, and 70 be gas flowmeter, and 7 be natural gas at burner, and 80 survey for online revolving speed Instrument is measured, 8 be rubber roller.

Specific embodiment

Combined with specific embodiments below, the present invention is furture elucidated, it should be understood that these embodiments are merely to illustrate the present invention Rather than limit the scope of the invention, after the present invention has been read, those skilled in the art are to various equivalences of the invention It is as defined in the appended claims that the modification of form falls within the application.

Embodiment

It referring to Fig.1, is a kind of flame glass fibre production Internet of things system monitoring signals schematic diagram, wherein 10 be high temperature side Wen Yi, 1 is high temperature kiln entrance, and 20 be in-line viscometer, and 2 be glass metal at high temperature kiln alloy bushing, and 30 be horizontal CCD Camera, 3 is flow stock at high temperature kiln bushing, 40 be fluid flowmeter, and 4 be glue-spraying device, and 50 be vertical CCD camera, and 5 be transmission Band blanket, 60 be pressure sensor, and 6 be perforated conveyor belt, and 70 be gas flowmeter, and 7 be natural gas at burner, and 80 turn to be online Fast measuring instrument, 8 be rubber roller, by material homogenizer Internet of Things net system, flame injection material Networking subsystems and glue spraying collection cotton Internet of Things Subsystem three parts are constituted, it is characterised in that the material homogenizer Internet of Things net system is glued by high-temperature measurement instrument 10, online Degree meter 20 and horizontal CCD camera 30 are constituted, and the flame injection material Networking subsystems are surveyed by gas flowmeter 70 and online revolving speed Instrument 80 is measured to constitute；The glue spraying collection cotton Internet of Things net system is by fluid flowmeter 40, pressure sensor 60 and vertical CCD camera 50 It constitutes；Signal acquisition module is to material homogenizer Internet of Things net system, flame injection material Networking subsystems and glue spraying collection cotton Internet of Things Status signal in subsystem is acquired, and is transmitted by the signal transmission module connecting with signal acquisition module, by with The signal processing module of signal transmission module connection is handled, and signal feedback module feeds back data information to material homogenizer object Networking subsystems, flame injection material Networking subsystems and glue spraying collection cotton Internet of Things net system realize closed loop automation control.

Further, the high-temperature measurement instrument 10 detects material homogenizer Internet of Things net system high temperature kiln entrance 1 Temperature, in-line viscometer 20 detect 2 viscosity of glass metal at high temperature kiln alloy bushing, and horizontal CCD camera 30 detects high temperature kiln 3 temperature of stock and flow velocity are flowed at bushing；The gas flowmeter 70 detects natural at burner in flame injection material Networking subsystems 7 air-flow velocity of gas, online tachometer of measuring 80 detect 8 revolving speed of rubber roller；The pressure sensor 60 monitors glue spraying collection cotton Internet of Things 6 negative pressure of perforated conveyor belt in net system, fluid flowmeter 40 detect 4 glue spraying speed of glue-spraying device and total amount, vertical CCD camera 50 detection 5 thickness of conveyer belt blanket.

Further, the signal acquisition module and high-temperature measurement instrument 10, in-line viscometer 20, horizontal CCD camera 30, gas Flowmeter body 70, online tachometer of measuring 80, pressure sensor 60, fluid flowmeter 40 are connected with vertical CCD camera 50, are used for Acquisition state signal.

Further, related status information in information acquisition module is converted identifiable number by the information transmission modular It is believed that number and pass to message processing module.

Further, the message processing module analyzes the data-signal in information transmission modular, and will transmitting Data information and central processing unit in prestore line production system information and compare；The also integrated big number of the message processing module According to analysis module, it can be analyzed according to data information algorithm of the large database concept to transmitting, regulation and control instruction be formed, by information feedback module It is fed back, shortens response regulation time.

Further, the information feedback module further includes alarm, is blown with material homogenizer Internet of Things net system, flame Internet of Things net system is connected with glue spraying collection cotton Internet of Things net system, when the deviation of signal of line production system each section is more than certain journey When spending, the alarm in information feedback module is sounded an alarm.

Embodiment through the invention combines Internet of Things with traditional flame glass fiber manufacturing line system, system Response time be 0.1 ~ 0.2ms, it can be achieved that rapid feedback is adjusted, the yields of fiber is up to 98% or more, and the flame of preparation is fine Avarage fiber diameter is tieed up at 1.0 microns hereinafter, reaching domestic and international top standard.

It above are only the specific embodiment of the present invention, but the design concept of the present invention is not limited to this, all benefits It is made a non-material change to the present invention with this design, should belong to the behavior for invading the scope of protection of the invention.But it is all Without departing from the content of technical solution of the present invention, according to the technical essence of the invention any type of letter to the above embodiments Single modification, equivalent variations and remodeling, still fall within the protection scope of technical solution of the present invention.

Claims (6)

1. a kind of flame glass fibre produces Internet of things system, by material homogenizer Internet of Things net system, flame blowing Internet of Things System and glue spraying collection cotton Internet of Things net system three parts are constituted, it is characterised in that the material homogenizer Internet of Things net system by High-temperature measurement instrument 10, in-line viscometer 20 and horizontal CCD camera 30 are constituted, and the flame injection material Networking subsystems are by gas stream Meter 70 and online tachometer of measuring 80 are constituted；The glue spraying collection cotton Internet of Things net system is by fluid flowmeter 40, pressure sensing Device 60 and vertical CCD camera 50 are constituted；Signal acquisition module is blown Internet of Things subsystem to material homogenizer Internet of Things net system, flame Status signal in system and glue spraying collection cotton Internet of Things net system is acquired, and is transmitted by the signal connecting with signal acquisition module Module is transmitted, and is handled by the signal processing module connecting with signal transmission module, and signal feedback module believes data Breath feedback arrives material homogenizer Internet of Things net system, flame injection material Networking subsystems and glue spraying collection cotton Internet of Things net system, realizes Closed loop automation control.

2. production Internet of things system according to claim 1, it is characterised in that the high-temperature measurement instrument 10 detects raw material It is homogenized 1 temperature of Internet of Things net system high temperature kiln entrance, in-line viscometer 20 detects glass at high temperature kiln alloy bushing 2 viscosity of liquid, horizontal CCD camera 30, which detects, flows 3 temperature of stock and flow velocity at high temperature kiln bushing；The gas flowmeter 70 detects 7 air-flow velocity of natural gas at burner in flame injection material Networking subsystems, online tachometer of measuring 80 detect 8 revolving speed of rubber roller；Institute The pressure sensor 60 stated monitors 6 negative pressure of perforated conveyor belt in glue spraying collection cotton Internet of Things net system, the detection spray of fluid flowmeter 40 4 glue spraying speed of adhesive dispenser and total amount, vertical CCD camera 50 detect 5 thickness of conveyer belt blanket.

3. production Internet of things system according to claim 1, it is characterised in that the signal acquisition module and high-temperature measurement Instrument 10, in-line viscometer 20, horizontal CCD camera 30, gas flowmeter 70, online tachometer of measuring 80, pressure sensor 60, liquid Flowmeter body 40 is connected with vertical CCD camera 50, is used for acquisition state signal.

4. production Internet of things system according to claim 1, it is characterised in that the information transmission modular is by information collection Related status information is converted into identifiable data-signal and passes to message processing module in module.

5. production Internet of things system according to claim 1, it is characterised in that the message processing module transmits information Data-signal in module is analyzed, and will be prestored in the data information and central processing unit of transmitting line production system information into Row comparison；The also integrated big data analysis module of the message processing module can be calculated according to data information of the large database concept to transmitting Method analysis, forms regulation and control instruction, is fed back by information feedback module, shortens response regulation time.

6. production Internet of things system according to claim 1, it is characterised in that the information feedback module further includes alarm Device is connected with material homogenizer Internet of Things net system, flame injection material Networking subsystems and glue spraying collection cotton Internet of Things net system, works as life When the deviation of signal of producing line system components is more than to a certain degree, the alarm in information feedback module is sounded an alarm.