CN112774383A - Dust removing method for wooden furniture production - Google Patents

Abstract

The invention discloses a dust removing method for wooden furniture production, which belongs to the technical field of wood processing and is characterized by comprising the following steps: collecting dust; collecting dust generated by processing equipment at different stations to a settling bin through different dust absorption pipelines; separating dust; in the settling bin, separating the dust into heavy dust and light dust according to the mass of the dust; inputting the light dust into a gas-material separator for treatment; conveying the heavy dust to an external discharge unit through a negative pressure pipeline for treatment; separating the mixture of gas and light dust in a gas-material separator, screening out the light dust, and introducing the light dust into an exhaust unit for treatment; in the discharge unit, gas and dust are separated, and the separated dust is cached in a storage bin to wait for discharge. The dust collecting device can effectively collect dust in a region and separate the dust in the conveying process, so that the safety of a factory area is improved, and better conditions are provided for subsequent dust treatment.

Description

Dust removing method for wooden furniture production

Technical Field

The invention belongs to the technical field of wood processing, and particularly relates to a dust removal method for wood furniture production.

Background

In recent years, with the rapid development of science and technology, wood processing enterprises gradually enter a large-scale fine intelligent production stage, as is well known, in the wood processing process, the following processes of cutting, milling, drilling, sanding and the like are often required, in the processes, the devices required to be used are a grinding machine, a cutting machine, a processing center, a sanding machine, a milling machine, a drilling machine, a lathe and the like, and with the heavy use of such automatic devices, a large amount of wood dust is generated as a result;

as is known, wood dust can be divided into wood chips and wood powder according to the particle size, the wood chips are generally from milling and sawing equipment, and the wood powder is mainly from sanding equipment; both wood chips and wood flour are flammable. Wood flour produced by cutting wood can float in the air for a long time; after being inhaled by human body, the health of human body is greatly damaged. Therefore, as a household production enterprise, the treatment of the wood dust is particularly important from the aspects of environmental protection requirements and human body safety.

In addition, the risk in terms of production safety is dust explosion, which refers to an explosion phenomenon that occurs when combustible dust suspended in air touches an open flame or an ignition source such as an electric spark. The dust explosion means that the combustible dust meets a heat source within the explosion limit range, the flame instantly spreads in the whole mixed dust space, the chemical reaction speed is extremely high, a large amount of heat is released at the same time, high temperature and high pressure are formed, the energy of the system is converted into mechanical energy and the radiation of light and heat, and the destructive power is very strong. Along with the popularization of the humanization concept and the composition of a novel harmonious society, wood dust explosion prevention is very necessary. The explosion of combustible dust should be subject to three conditions, namely the dust itself is explosive and the dust must be suspended in and mixed with air to an explosive concentration with a sufficient source of fire to cause the dust to explode. The wood particles can be exploded after reaching 25-65g/m3, and the existence of dust explosion inducers and enough induced energy are sufficient conditions for dust explosion. In the past, because the understanding and attention on dust explosion are lacked, the dust explosion phenomenon is often represented as an accidental sudden event. The causes of this are mainly open flames, hot particles or surfaces, heat accumulation, heat rays, mechanical friction such as sparks generated by sanding and collision, sparks generated by electrical or electrostatic discharge, etc.

In conclusion, dust removal treatment needs to be performed on a processing workshop, but most of existing dust removal systems simply perform dust filtration and collection, so that not only is the dust removal effect poor, but also if the dust concentration cannot be guaranteed to be controlled, the safety of a processing place cannot be guaranteed, continuous operation cannot be performed, regular cleaning is required after long-time use, filtered dust is accumulated, dust is easily splashed to form secondary pollution when disassembly and maintenance are performed, the effect is not ideal, sparks are easily generated due to friction during the dust extraction process, and once sparks are generated, explosion is more likely to occur, and great potential safety hazards are caused.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a dust removal method for wood furniture production.

In order to achieve the purpose, the invention adopts the following technical scheme:

a dust removing method for wood furniture production at least comprises the following steps:

s1, collecting dust; collecting dust generated by processing equipment at different stations to a settling bin through different dust absorption pipelines;

s2, separating dust; in the settling bin, separating the dust into heavy dust and light dust according to the mass of the dust;

s3, inputting the light dust into a gas-material separator for treatment; conveying the heavy dust to an external discharge unit through a negative pressure pipeline for treatment; wherein:

separating the mixture of gas and light dust in a gas-material separator, screening out the light dust, and introducing the light dust into an exhaust unit for treatment;

in the discharge unit, gas and dust are separated, and the separated dust is cached in a storage bin to wait for discharge.

Preferably, in S1, in the dust collecting process, the environmental parameters in the settling bin are monitored in real time; and comparing the environmental parameters with a safety threshold, if the environmental parameters are within the range of the safety threshold, continuing dust collection, otherwise, alarming or stopping, and starting again after the environmental parameters return to the range of the safety threshold.

Preferably, the environmental parameters include a temperature parameter and a pressure parameter.

Preferably, in S2, a scraper chain conveying device is disposed in the settling bin, the scraper chain conveying device conveys the heavy dust to the heavy dust outlet, the heavy dust is conveyed to the heavy dust outlet by the scraper chain conveying device, and the light dust is led out through the light dust outlet.

Preferably, in S2, the condition of the scraper chain conveyor is monitored, and when the scraper chain conveyor fails, the scraper chain conveyor is stopped, otherwise, the scraper chain conveyor is operated.

Preferably, for S3, the environmental parameters in the gas-material separator are monitored in real time while the gas-material separator is in operation; and comparing the environmental parameters with a safety threshold, if the environmental parameters are within the range of the safety threshold, continuing dust separation, otherwise, alarming or stopping, and starting again after the environmental parameters return to the range of the safety threshold.

Preferably, the environmental parameters include a temperature parameter and a pressure parameter.

Preferably, for S3, when the peripheral unit is in operation, the environmental parameters in the peripheral unit are monitored in real time; and comparing the environmental parameters with a safety threshold, if the environmental parameters are within the range of the safety threshold, continuing to discharge the dust, otherwise, alarming or stopping, and starting again after the environmental parameters return to the range of the safety threshold.

Preferably, the environmental parameters include a temperature parameter and a pressure parameter.

Preferably, S1 is specifically: the dust removal port of each processing device is connected with the inlet of the sedimentation bin through a dust collection pipeline, and a control valve linked with the cutter shaft of the processing device is installed on each dust collection pipeline.

Compared with the prior art, the invention has the beneficial effects that:

the invention adopts a step-by-step dust treatment method, namely, firstly collecting dust, then carrying out multi-stage separation, and finally discharging the dust; in each link of dust treatment, relevant environmental parameters and equipment parameters are collected, so that the environmental parameters can be well ensured to be in a safe range all the time, and the equipment state is in a good state all the time; has the advantages of good dust removal effect and good safety performance.

According to the invention, the states of different parts of the dust removal system are monitored in real time, and through the monitored data, on one hand, whether the state of the dust removal system is normal can be known in time, and meanwhile, the state of the dust removal system can be adjusted according to the monitored data, so that the dust removal system is in an efficient working state;

the controller is used for comparing the threshold value of the monitoring data, so that the automatic adjustment of the dust removal system is realized;

according to the invention, the states of different parts of the dust removal system are monitored in real time, so that potential safety hazards can be found in time and the dust removal system can be prevented from getting ill.

According to the invention, the dust collection pipeline is used for directly absorbing and guiding the dust of each station to the sedimentation bin, so that the dust can be prevented from being diffused to the surrounding space, and the air quality of the station factory area is ensured;

according to the invention, the dust in the settling bin is guided to the dust collecting bin through the negative pressure pipeline, so that the accumulation of the dust in the settling bin is avoided; the settling bin does not need to be cleaned regularly; labor is saved;

according to the invention, each link of the dust removal system is monitored by a plurality of sensors, so that the dust concentration can be ensured to be below a critical value, and the safe and normal operation of the whole system is ensured.

Drawings

FIG. 1 is a flow chart of a preferred embodiment of the present invention;

fig. 2 is a block diagram of a system used to implement a preferred embodiment of the present invention.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1 and 2, a dust removing method for wood furniture production comprises the following steps:

s1, collecting dust; collecting dust generated by processing equipment (such as a grinding machine, a cutting machine, a processing center, a sanding machine, a milling machine, a drilling machine and a lathe) at different stations to a settling bin through different dust absorption pipelines; in order to realize safe production, environmental parameters in the settling bin need to be monitored in real time in the dust collecting process; and comparing the environmental parameter with a safety threshold, if the environmental parameter is within the range of the safety threshold, continuing dust collection, otherwise, stopping, and starting again after the environmental parameter returns to the range of the safety threshold. The environmental parameters include a temperature parameter and a pressure parameter.

S2, primary dust separation; in the settling bin, separating the dust into heavy dust and light dust according to the mass of the dust; specifically, a scraper chain conveying device for conveying dust to a heavy dust outlet is arranged in the settling bin, the heavy dust is conveyed to the heavy dust outlet through the scraper chain conveying device, and light dust passes through a light dust outlet at the top of the settling bin and then enters a gas-material separator through a negative pressure pipeline;

s3, inputting the light dust into a gas-material separator for treatment; conveying the heavy dust to an external discharge unit through a negative pressure pipeline for treatment; wherein:

separating light dust and gas in a gas-material separator, screening out the light dust, and introducing the light dust into an exhaust unit for treatment; when the gas-material separator works, monitoring environmental parameters in the gas-material separator in real time; and comparing the environmental parameters with a safety threshold, if the environmental parameters are within the range of the safety threshold, continuing dust separation, otherwise, stopping and/or alarming, and starting again after the environmental parameters return to the range of the safety threshold. The environmental parameters include a temperature parameter and a pressure parameter.

In the discharge unit, dust and gas are separated, and the dust is cached in a storage bin to wait for discharge. When the external discharge unit works, monitoring environmental parameters in the external discharge unit in real time; and comparing the environmental parameters with a safety threshold, if the environmental parameters are within the range of the safety threshold, continuing to discharge the dust, otherwise, stopping and/or alarming, and starting again after the environmental parameters return to the range of the safety threshold. The environmental parameters include a temperature parameter and a pressure parameter.

In order to save energy: the dust removal port of each processing device is connected with the inlet of the settling bin through a dust collection pipeline, a gate valve linked with the cutter shaft of the processing device is installed on each dust collection pipeline, namely the cutter shaft and the gate valve of the processing device are opened and closed simultaneously, after the processing device is started, the control valve is opened, the dust collection pipeline works, and otherwise, the control valve is closed.

The dust removal method for the wood furniture production is realized based on the following system, and the system mainly comprises the following steps:

a dust removal part; the dust removing part comprises a dust suction pipeline 1, a settling bin communicated with the dust suction pipeline, a dust collecting bin and a gas-material separator; wherein: the heavy material dust outlet at the bottom of the settling bin is connected with the air inlet of the cyclone separator on the dust collecting bin through a second negative pressure pipeline 3; a light material dust outlet at the top of the settling bin is connected with an inlet of the gas-material separator through a first negative pressure pipeline 2; the outlet of the gas-material separator is communicated with the second negative pressure pipeline 3 through a fourth negative pressure pipeline 5; the air outlet of the cyclone separator is connected with the settling bin through a positive pressure pipeline 4; a conveying fan is arranged on the positive pressure pipeline 4; gate valves are arranged on the dust absorption pipeline 1 and the first negative pressure pipeline 2; the heavy material dust outlet is provided with an air-locking dust discharging valve, and the fourth negative pressure pipelines 5 are provided with air-locking dust discharging valves;

a state monitoring unit; the state monitoring part comprises a first parameter acquisition module for acquiring state parameters of the settling bin, a second parameter acquisition module for acquiring state parameters of the gas-material separator and a third parameter acquisition module for acquiring state parameters of each control valve; a fourth parameter acquisition module for acquiring the state parameters of the dust collection bin;

a control unit; and the control part receives the system working condition parameters acquired by the state monitoring part and further controls the dust removal method for the wood furniture production according to the system working condition parameters.

And a scraper chain conveying device for conveying dust to the heavy material dust outlet is arranged in the settling bin. The settling bin is communicated with an air outlet of each station device through a dust absorption pipeline; a scraper chain conveying device for conveying heavy dust to a heavy material dust outlet is arranged in the settling bin; namely, the bottom of the settling bin is provided with a heavy material dust outlet which is positioned right below the discharge end of the scraper chain conveying device; when heavy dust falls from the discharge end of the scraper chain conveying device, the heavy dust enters a heavy material dust outlet; as a preference; the scraper chain conveying device of the settling bin comprises a scraper conveying chain, a driving shaft, a driven shaft and a speed reducing motor for driving the driving shaft to run; the feeding port of the settling bin is connected with a plurality of dust collection pipelines; each dust absorption pipeline is connected with an air outlet of the processing equipment, and in order to save energy, an electric gate valve which is associated with the cutter shaft is arranged on each dust absorption pipeline; namely, when the cutter shaft acts, the corresponding electric gate valves are synchronously opened, and when the cutter shaft is closed, the corresponding electric gate valves are synchronously closed;

the first parameter acquisition module comprises a temperature sensor, a pressure sensor, a chain monitoring device for acquiring the working state of the scraper chain conveying device and a scraper state detection device; the control part receives temperature information inside the settling bin, gas pressure information generated by dust, chain state information and scraper state information; and then the working state of the settling bin is adjusted through threshold comparison.

In the preferred embodiment: the gas-material separator is divided into from top to bottom: the cleaning room, the dust removal room and the scraper chain conveying device are positioned at the bottom; and separator fans are arranged on two sides of the gas-material separator, a separator gas-locking ash-discharging valve is installed at a feed opening of the scraper chain conveying device, and the separator gas-locking ash-discharging valve is connected with a fourth negative pressure pipeline.

The second parameter acquisition module comprises a nozzle pressure detection module, a filter bag pressure detection module, a chain state detection module, a scraper state detection module and a temperature detection module; the control part receives nozzle pressure information, filter bag pressure information, chain state information, scraper plate state information and temperature information of the gas-material separator, and then adjusts the working state of the gas-material separator through threshold value comparison.

And a cyclone air-locking ash discharging valve is arranged at the discharge opening of the cyclone separator.

The fourth parameter acquisition module comprises a material level sensor, a temperature sensor and a pressure sensor which are arranged in the dust collection bin, and the control part receives the material level sensor, the temperature sensor and the pressure sensor, so that the state of the dust removal method for the wood furniture production is adjusted through threshold value comparison.

The third parameter acquisition module comprises an induction sheet which is arranged at the end of the motor shaft and rotates along with the motor shaft, and a proximity switch is arranged on the shell on one side of the motor shaft corresponding to the position of the induction sheet; the control part receives the information of the proximity switch, and then adjusts the working state of the motor.

And a spark detection system is arranged in the first negative pressure pipeline.

The control part comprises a dust remover main cabinet PLC, a settling bin PLC communicated with the first parameter acquisition module, a gas-material separator PLC communicated with the second parameter acquisition module and a bin PLC communicated with the fourth parameter acquisition module; and the dust remover main cabinet PLC is respectively in data interaction with the settling bin PLC, the gas-material separator PLC, the stock bin PLC and the spark detection system.

The gas-material separator is communicated with the settling bin through a negative pressure pipeline; a gate valve is arranged on the negative pressure pipeline; the air outlet of the settling bin is connected with the gas-material separator through a negative pressure pipeline; the gas-material separator is divided into a clean room, a dust removal room and a scraper chain conveying device positioned at the bottom from top to bottom; separator fans are arranged on two sides of the gas-material separator, and a gas locking ash discharging valve is arranged at a feed opening of the scraper chain conveying device, namely an outlet of the gas-material separator;

the dust collecting bin is used for collecting dust, namely the dust in the settling bin is timely led out; wherein:

the heavy material dust outlet of the settling bin is communicated with the dust collection bin through a negative second negative pressure pipeline; the gas-material separator is provided with a conveying fan, negative pressure is formed in the gas-material separator when the air conveying fan works, and dust at a station enters a dust absorption pipeline under the action of the negative pressure because the gas-material separator is connected with the settling bin and the dust absorption pipeline through a negative pressure pipeline.

The induced air port of the cyclone separator is connected with a conveying fan through a pipeline, and the return air port of the conveying fan is connected with a positive pressure pipeline through a pipeline; a temperature probe for detecting the temperature of the motor stator of the conveying fan PT100 is arranged on a fan stator silicon steel sheet of the conveying fan; a vibration sensor for detecting vibration of the conveying fan is arranged at the end part of a motor of the conveying fan; a pressure sensor for detecting pressure is arranged in an air inlet pipeline of one or more negative pressure pipelines;

the chain state detection assembly and the operation state detection assembly of the scraper chain conveying motor are arranged on the sedimentation bin scraper chain conveying device; the chain state detection assembly comprises an induction sheet arranged on a driven shaft, a trigger piece is fixedly arranged on a shell at the position corresponding to the induction sheet, the trigger piece is preferably a first proximity switch, and when the induction pulse interval exceeds 3 seconds (the duration can be adjusted according to the time production requirement), the chain is considered to be disconnected through induction of the first proximity switch; the scraper chain conveying motor running state detection assembly comprises a mounting induction sheet fixedly mounted at the shaft end of a speed reducer of the scraper chain conveying motor and rotating along with the shaft of the speed reducer; a second proximity switch matched with the induction sheet is fixedly arranged on the shell of the speed reducer; scanning and feeding back the working state of the scraper chain conveying motor through a second proximity switch; the scanning pulse period interval exceeds 3 seconds (the duration can be adjusted according to the time production requirement), and the scraper chain conveying motor is considered to stop running;

the control is provided with a motor running state retrieval component for detecting the motor running state of the control valve; the motor running state retrieval assembly comprises an induction sheet rotating along with the motor shaft at the end of the motor shaft, a proximity switch is arranged on the control valve shell corresponding to the position of the induction sheet, the working state of the control valve is fed back through the proximity switch, the scanning pulse period interval exceeds 3 seconds, and the motor shaft of the control valve is considered to stop running;

a pressure sensor for detecting the internal pressure of the sedimentation bin is arranged in the sedimentation bin; the pressure sensor is associated with the starting frequency of the fan, the pressure value in the sedimentation bin is set according to the wind speed required by the pipe orifice at the tail end, the frequency is reduced when the detected pressure value is higher than the set value, and the frequency is increased when the detected pressure value is higher than the set value;

a temperature sensor for monitoring the internal temperature of the sedimentation bin is arranged in the sedimentation bin;

the controller for controlling the working state of the gate valve by the proximity switch, the pressure sensor and the temperature sensor are in signal connection with the settling bin data acquisition module, and the settling bin data acquisition module is in communication connection with the master controller;

a pressure difference sensor is arranged in a clean room and a cloth bag chamber of the separator, and the starting pressure, the stopping pressure and the replacement pressure value of the filter cloth bag of the separator fan are set;

a blowing pressure detection sensor for detecting the pressure of compressed air of the ejection system is arranged in a clean room of the gas-material separator, and the blowing pressure detection sensor is arranged at an air inlet of the blowing reciprocating trolley; a pressure difference sensor for detecting the pressure difference between the clean room and the cloth bag chamber is arranged between the clean room and the cloth bag chamber; the start and stop of the blowing trolley are controlled by setting a differential pressure value; when the detected differential pressure value is higher than the opening differential pressure value, the blowing trolley is opened, and when the detected differential pressure value is lower than the stopping differential pressure value, the blowing trolley stops working;

a temperature sensor for detecting the internal temperature of the gas-material separator is arranged in the cloth bag chamber;

a vibration sensor for detecting the vibration of the dust removal fan is arranged on a bearing seat of the air-material separator fan; the other bearing seat is provided with a temperature probe for detecting the temperature of the fan motor stator PT100, and the stator silicon steel sheet of the separator fan is provided with a temperature probe for detecting the temperature of the fan motor stator PT 100;

the feed opening of the gas-material separator is connected with a negative pressure pipeline, and the negative pressure pipeline is connected with an air inlet of the cyclone separator positioned at the top of the dust collection transfer bin; the bottom of the dust collection transfer bin is provided with a screw conveyor; the air inlet of the cyclone separator is connected with a conveying fan through a pipeline, and the air return inlet of the conveying fan is connected with a conveying pipeline through an air return pipeline;

a cyclone air-locking ash discharging valve is arranged at a feed opening of the cyclone separator; the cyclone gas-locking ash discharging valve is provided with a cyclone gas-locking ash discharging valve motor running state retrieval component for detecting the running state of the gas-locking ash discharging valve motor; the cyclone gas-locking ash discharging valve motor running state retrieval assembly comprises a sensing piece which rotates along with the cyclone gas-locking ash discharging valve motor shaft at the cyclone gas-locking ash discharging valve motor shaft end, a proximity switch is arranged on the cyclone gas-locking ash discharging valve housing corresponding to the sensing piece, the working state of the cyclone gas-locking ash discharging valve is fed back through the proximity switch, the scanning pulse period interval exceeds 3 seconds, and the cyclone gas-locking ash discharging valve motor shaft is considered to stop running;

a material level meter for the material storage degree in the bin is arranged at the top of the dust collection transfer bin, and when the material level reaches a set position; a pressure sensor for detecting the internal pressure of the storage bin is arranged in the storage bin; a detection temperature sensor for detecting the internal temperature of the storage bin is arranged in the storage bin;

PT100 temperature probes for detecting the temperature of the bearing are arranged on bearing seats at two ends of the screw conveyor; a spiral conveying detection assembly for detecting the running state of the spiral driving motor is arranged on the spiral driving motor of the spiral conveyor, and comprises an installation induction sheet which is fixedly arranged at the shaft end of the spiral driving motor and rotates along with the shaft end of the spiral driving motor; a seventh proximity switch matched with the induction sheet is fixedly arranged on the shell of the spiral drive motor; scanning the working state of the feedback spiral driving motor through a sixth proximity switch; the interval of the scanning pulse period exceeds 3 seconds, and the spiral driving motor is considered to stop running;

a bin air-locking ash discharging valve is arranged at a discharging opening of the spiral conveyor; the bin air-locking ash discharging valve is provided with a bin air-locking ash discharging valve motor running state retrieval component for detecting the running state of the bin air-locking ash discharging valve motor; the bin air-locking and ash-discharging valve motor running state retrieval assembly comprises a sensing piece which is arranged at the end head of a bin air-locking and ash-discharging valve motor shaft and rotates along with the bin air-locking and ash-discharging valve motor shaft, an eighth proximity switch is arranged on the bin air-locking and ash-discharging valve housing corresponding to the position of the sensing piece, the working state of the bin air-locking and ash-discharging valve is fed back through the proximity switch, the scanning pulse period interval exceeds 3 seconds, and the bin air-locking and ash-discharging valve motor shaft is considered to be out of operation.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Claims (10)

1. A dust removal method for wood furniture production is characterized by at least comprising the following steps:

s1, collecting dust; collecting dust generated by processing equipment at different stations to a settling bin through different dust absorption pipelines;

s2, separating dust; in the settling bin, separating the dust into heavy dust and light dust according to the mass of the dust;

s3, inputting the light dust into a gas-material separator for treatment; conveying the heavy dust to an external discharge unit through a negative pressure pipeline for treatment; wherein:

separating the mixture of gas and light dust in a gas-material separator, screening out the light dust, and introducing the light dust into an exhaust unit for treatment;

in the discharge unit, gas and dust are separated, and the separated dust is cached in a storage bin to wait for discharge.

2. The dust removing method for dust generated in the production of wooden furniture as claimed in claim 1, wherein in S1, the environmental parameters in the settling bin are monitored in real time during the dust collection process; and comparing the environmental parameters with a safety threshold, if the environmental parameters are within the range of the safety threshold, continuing dust collection, otherwise, alarming or stopping, and starting again after the environmental parameters return to the range of the safety threshold.

3. The method of dust removal in wood furniture production of claim 2, wherein said environmental parameters include temperature parameters and pressure parameters.

4. The dust removing method for wood furniture production according to claim 1, wherein S2 is implemented by arranging a scraper chain conveying device in the settling bin for conveying heavy dust to a heavy dust outlet, wherein the heavy dust is conveyed to the heavy dust outlet through the scraper chain conveying device, and the light dust is guided out through the light dust outlet.

5. The dust removing method for wooden furniture production dust according to claim 4, wherein in S2, the condition of the scraper chain conveyor is monitored, and when the scraper chain conveyor fails, the scraper chain conveyor is stopped, otherwise, the operation is performed.

6. The dust removing method for dust in wood furniture production according to claim 1, wherein for S3, the environmental parameters in the gas-material separator are monitored in real time when the gas-material separator works; and comparing the environmental parameters with a safety threshold, if the environmental parameters are within the range of the safety threshold, continuing dust separation, otherwise, alarming or stopping, and starting again after the environmental parameters return to the range of the safety threshold.

7. The method of dust removal in the manufacture of wood furniture according to claim 6, wherein said environmental parameters include temperature parameters and pressure parameters.

8. The dust removing method for dust in wood furniture production according to claim 1, wherein for S3, when the external row unit works, the environmental parameters in the external row unit are monitored in real time; and comparing the environmental parameters with a safety threshold, if the environmental parameters are within the range of the safety threshold, continuing to discharge the dust, otherwise, alarming or stopping, and starting again after the environmental parameters return to the range of the safety threshold.

9. The method of dust removal in the manufacture of wood furniture according to claim 8, wherein said environmental parameters include temperature parameters and pressure parameters.

10. The dust removal method for wood furniture production according to claim 1, wherein S1 specifically comprises: the dust removal port of each processing device is connected with the inlet of the sedimentation bin through a dust collection pipeline, and a control valve linked with the cutter shaft of the processing device is installed on each dust collection pipeline.

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