CN218308589U - Indoor high-power multifunctional mute dust treatment system - Google Patents

Abstract

The utility model discloses an indoor high-power multifunctional mute dust treatment system, which comprises a main box body, a diversion pipe for enabling a cyclone separation air flow to enter a filter screen separation chamber, a silencing grid and an air flow outlet, an explosion-proof membrane, a fire-extinguishing bottle, a motor, a liquid crystal control panel, a filter cartridge, a filter screen separation dust collection box, a cyclone separation dust collection box, a filter screen separation chamber, a dust air flow inlet, a fan, an accumulator reverse-blowing pipeline, a gas collection chamber, a pressure storage tank, an electric appliance control box, a liquid crystal control box, a cyclone separation device, a dust air flow inlet pipe, a cyclone device dust separation port, a fire-extinguishing agent, an electric wire guide pipe and an exhaust box body; the bottom of the main box body is provided with a filter screen separation dust collection box and a cyclone separation dust collection box, the filter screen separation dust collection box is positioned in the middle of the main box body, and the cyclone separation dust collection box is positioned on the left side of the filter screen separation dust collection box. The utility model discloses cyclone separation system combines with the filter screen, and the dust separation effect improves, and the filter screen is difficult for blockking up, has reduced working strength.

Description

Indoor high-power multifunctional mute dust treatment system

Technical Field

The utility model relates to a dust disposal technical field specifically is an indoor high-power multi-functional silence dust disposal system.

Background

The dust treatment not only treats the dust generated by processing, but also filters the floating dust escaping indoors and in the air. It is necessary to ensure that the indoor air is circulated 6-8 times per hour to effectively control the indoor air. Similar products are required in schools, scientific research institutions and small precision machining fields.

At present, a dust treatment system with high power, low noise and multiple functions used indoors is still a blank. The existing multipurpose simple equipment can not meet the environmental protection requirements in the aspects of controlling the whole dust amount, noise and safety in the room. The foreign devices introduced at present have extremely small quantity and extremely high price. A plurality of auxiliary dust separation systems are available in the market, but all the auxiliary dust separation systems operate independently, and a plurality of sets of different devices are matched for use to meet the work requirement.

Disclosure of Invention

The technique that exists is not enough to the aforesaid, the utility model aims at providing an indoor high-power multi-functional silence dust disposal system, it adopts whirlwind piece-rate system and filter screen to combine, and the dust separation effect improves, and the filter screen is difficult for blockking up, has reduced working strength.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the indoor high-power multifunctional mute dust treatment system is characterized by comprising a main box body, a diversion pipe for enabling a cyclone separation air flow to enter a filter screen separation chamber, a silencing grid and an air flow outlet, an explosion-proof membrane, a fire extinguishing bottle, a motor, a liquid crystal control panel, a filter cylinder, a filter screen separation dust collection box, a cyclone separation dust collection box, a filter screen separation chamber, a dust air flow inlet, a fan, a pressure accumulator reverse blowing pipeline, a gas collection chamber, a pressure storage tank, an electrical appliance control box, a liquid crystal control box, a cyclone separation device, a dust air flow inlet pipe, a cyclone device dust separation port, a fire extinguishing agent, an electric wire guide pipe and an exhaust box body; the bottom of the main box body is provided with a filter screen separation dust collection box and a cyclone separation dust collection box, the filter screen separation dust collection box is positioned in the middle of the main box body, and the cyclone separation dust collection box is positioned on the left side of the filter screen separation dust collection box; a filter screen separation chamber and a gas collection chamber are arranged in the main box body, the filter screen separation chamber is positioned on the front side of the gas collection chamber, the filter screen separation chamber and the gas collection chamber are separated by a partition plate, two rows of filter cylinders are arranged in the filter screen separation chamber, and the filter cylinders are arranged on cavities on the partition plate; the filter cartridge is positioned above the filter screen separation dust collection box; the accumulator back-blowing pipeline is communicated with the two rows of filter cylinders;

an exhaust box body is arranged close to the right of the main box body; an airflow outlet is formed in the top of the exhaust box body, and a silencing grid is arranged at the airflow outlet; a fan is arranged in the exhaust box body, the fan is connected with a motor, and a pressure storage tank is arranged at the bottom in the main box body and is positioned below the fan; two fire extinguishing bottles are arranged on the right outer side wall of the exhaust box body, and fire extinguishing agents and electric wire conduits are connected to the fire extinguishing bottles; a liquid crystal control panel is arranged on the front side wall of the main box body and is positioned on the front side of the exhaust box body, and a liquid crystal control box corresponding to the liquid crystal control panel is arranged in the main box body; an electrical appliance control box is arranged at the bottom in the main box body and is positioned below the liquid crystal control panel;

the cyclone separation device is arranged in the main box body and is positioned above the cyclone separation dust collection box, a guide pipe for enabling the cyclone separation airflow to enter the filter screen separation chamber is arranged at the top of the main box body, one end of the guide pipe for enabling the cyclone separation airflow to enter the filter screen separation chamber is connected with the cyclone separation device, and the other end of the guide pipe for enabling the cyclone separation airflow to enter the filter screen separation chamber is connected with the filter cylinder at the uppermost part; a dust airflow inlet pipe is arranged on the cyclone separation device, one end of the dust airflow inlet pipe is positioned on the outer wall of the left side of the main box body, and one end of the dust airflow inlet pipe is a dust airflow inlet; the bottom end of the cyclone separation device is provided with a dust separation port of the cyclone separation device, the cyclone separation device is connected with a fire extinguishing agent and electric wire conduit, and a fire extinguishing agent pipeline and a temperature detection cable are arranged in the fire extinguishing agent and electric wire conduit; the explosion-proof membrane is arranged on the front side of the main box body and is positioned on the front side of the filter screen separation chamber.

Preferably, one end of the dust airflow inlet pipe is provided with a one-way valve and a connecting flange;

preferably, the main box body is a 3mm steel plate shell and is provided with a steel structure frame;

preferably, the filter cartridges are provided in six.

The beneficial effects of the utility model reside in that: 1. the cyclone separation system is combined with the filter screen, the dust separation effect is improved, the filter screen is not easy to block, and the working strength is reduced.

2. Cyclone separation and filter screen separation all have respective dust containing box, and two containing boxes have increased the dust and have accomodate the volume, have reduced the frequency of clearance containing box, have reduced secondary pollution's probability.

3. The inlet of the cyclone separation system is gradually enlarged and a lower milling angle is generated; the pipeline becomes big, has reduced air velocity and pressure, has reduced the loss that the air impact produced, is convenient for dust separation.

4. The lower milling angle of the inlet of the cyclone separation system can effectively separate large-particle dust.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an indoor high-power multifunctional silent dust treatment system provided by the present invention;

fig. 2 is a schematic structural view of a filter screen separation chamber of the indoor high-power multifunctional silent dust treatment system provided by the utility model;

fig. 3 is a schematic structural diagram of the interior of the exhaust box body of the indoor high-power multifunctional mute dust treatment system provided by the utility model;

fig. 4 is the structure diagram of the cyclone separating device of the indoor high-power multifunctional mute dust treatment system provided by the utility model.

Description of the reference numerals:

the device comprises a main box body 1, a diversion pipe 2 for enabling a cyclone separation airflow to enter a filter screen separation chamber, a silencing grid, an airflow outlet 3, an explosion-proof membrane 4, a fire-extinguishing bottle 5, a motor 6, a liquid crystal control panel 7, a filter cylinder 8, a filter screen separation dust box 9, a cyclone separation dust box 10, a filter screen separation chamber 11, a dust airflow inlet 12, a fan 13, an accumulator blowback pipeline 14, an air collection chamber 15, a pressure storage tank 16, an electrical appliance control box 17, a liquid crystal control box 18, a cyclone separation device 19, a dust airflow inlet pipe 20, a cyclone device dust separation port 21, a fire-extinguishing agent and electric wire guide pipe 22 and an exhaust box body 23.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

As shown in fig. 1-4, the indoor high-power multifunctional mute dust treatment system comprises a main box body 1, a diversion pipe 2 for enabling a cyclone separation air flow to enter a filter screen separation chamber, a silencing grid and an air flow outlet 3, an explosion-proof membrane 4, a fire-extinguishing bottle 5, a motor 6, a liquid crystal control panel 7, a filter cylinder 8, a filter screen separation dust box 9, a cyclone separation dust box 10, a filter screen separation chamber 11, a dust air flow inlet 12, a fan 13, an accumulator blowback pipeline 14, an air collection chamber 15, a pressure storage tank 16, an electrical appliance control box 17, a liquid crystal control box 18, a cyclone separation device 19, a dust air flow inlet pipe 20, a cyclone device dust separation port 21, a fire-extinguishing agent and electric wire conduit 22 and an exhaust box body 23; the bottom of the main box body 1 is provided with a filter screen separation dust collection box 9 and a cyclone separation dust collection box 10, the filter screen separation dust collection box 9 is positioned in the middle of the main box body 1, and the cyclone separation dust collection box 10 is positioned on the left side of the filter screen separation dust collection box 9; a filter screen separation chamber 11 and a gas collection chamber 15 are arranged in the main box body 1, the filter screen separation chamber 11 is positioned on the front side of the gas collection chamber 15, the filter screen separation chamber 11 and the gas collection chamber 15 are separated by a partition plate, two rows of filter cylinders 8 are arranged in the filter screen separation chamber 11, and the filter cylinders 8 are arranged on cavities on the partition plate; the filter cylinder 8 is positioned above the filter screen separation dust collection box 9; the accumulator blowback pipeline 14 is communicated with the two rows of filter cylinders 8;

an exhaust box body 23 is arranged close to the right of the main box body; an airflow outlet is formed in the top of the exhaust box body 23, and a silencing grid is arranged at the airflow outlet; a fan 13 is arranged in the exhaust box body 23, the fan 13 is connected with a motor 6, and a pressure storage tank 16 is arranged at the bottom in the main box body 1 and is positioned below the fan 13; two fire extinguishing bottles 5 are arranged on the right outer side wall of the exhaust box body 23, and fire extinguishing agents and electric wire conduits 22 are connected to the fire extinguishing bottles 5; a liquid crystal control panel 7 is arranged on the front side wall of the main box body 1 and is positioned on the front side of the exhaust box body 23, and a liquid crystal control box 18 corresponding to the liquid crystal control panel 7 is arranged in the main box body 1; an electric appliance control box 17 is arranged at the bottom in the main box body and is positioned below the liquid crystal control panel 7;

a cyclone separation device 19 is arranged in the main box body and is positioned above the cyclone separation dust collection box 10, a diversion pipe 2 for enabling the rotational separation airflow to enter the filter screen separation chamber is arranged at the top of the main box body, one end of the diversion pipe 2 for enabling the rotational separation airflow to enter the filter screen separation chamber is connected with the cyclone separation device 19, and the other end of the diversion pipe 2 for enabling the rotational separation airflow to enter the filter screen separation chamber is connected with a filter cylinder 8 at the uppermost part; a dust airflow inlet pipe 20 is arranged on the cyclone separation device 19, one end of the dust airflow inlet pipe 20 is positioned on the outer wall of the left side of the main box body, and one end of the dust airflow inlet pipe 20 is a dust airflow inlet 12; the bottom end of the cyclone separation device 19 is provided with a cyclone device dust separation port 21, the cyclone separation device 19 is connected with a fire extinguishing agent and electric wire conduit 22, and a fire extinguishing agent pipeline and a temperature detection cable are arranged in the fire extinguishing agent and electric wire conduit 22; the explosion-proof membrane 4 is arranged on the front side of the main box body and is positioned on the front side of the filter screen separation chamber 11.

Further, one end of the dust airflow inlet pipe 20 is provided with a one-way valve and a connecting flange; the one-way valve controls the airflow to move forward in a required direction, so that once explosion occurs, the burning high-temperature airflow reversely flows back to a working post to hurt people and burn wood; the position can also be arranged at any place according to the requirement, and is generally arranged on a main pipeline before an inlet;

further, the main box body 1 is a 3mm steel plate shell and is provided with a steel structure frame; ensuring that the main box body 1 is not damaged once the explosion is generated, and the energy of the explosion is discharged through the explosion-proof membrane 4.

Further, the filter cartridges 8 are provided in six.

Working principle; air with dust enters the cyclone separation device 19 under the action of suction force, the inlet of the cyclone separation device 19 is gradually enlarged and generates a lower milling angle, the airflow generated by rotary milling generates primary dust separation, and the dust falls into the cyclone separation dust box 10 below;

the separated air enters a filter screen separation chamber draft tube 2 through a cyclone separation airflow and enters a filter screen separation system, and dust is thoroughly separated by a filter cylinder 8; the separated dust falls into a filter screen separation dust collection box 9 below;

the air flow reaching the environmental protection standard enters the air collection chamber 15, and the side wall of the air collection chamber 15 is subjected to smoothing treatment to reduce the assistance force;

the air in the air collecting chamber 15 is discharged through an airflow outlet at the top of the exhaust box body 23 under the action of the fan 13 of the motor 6, the silencing grid at the airflow outlet is used for silencing, the pipeline interface at the airflow outlet is multiple times of that at the inlet, and the scheduling resistance is reduced.

The system adopts fire extinguishing detection alarm; the collected signals are compared logically, a small-sized control software is programmed, the machine is shut down when needed, two fire extinguishing bottles 5 are respectively released according to the program, and the fire extinguishing agent is prevented from being blown away by a fan 13 to influence the fire extinguishing efficiency. The control system also monitors the level of material to prevent clogging of the screen. The detection point is arranged above the waste bucket, and the detection wire is buried in the shell through a pipeline.

The utility model discloses whirlwind separation system combines as an organic whole with the filter screen filtration, and whirlwind separation receives the space restriction, has changed the size proportion of ideal. Through airflow simulation calculation, the lower milling angle of an airflow inlet is accurately positioned, and the dust separation amount is properly assigned. The acute angle of the pipeline through which the gas flows is reduced, the airflow resistance is improved, and the filtering effect is comprehensively enhanced.

The air flow is set according to the size of a room, different air filters of 5.5 kilowatts to 11 kilowatts can be set in the equipment, the requirements of different places are met, and the indoor air is ensured to circulate for 6-8 times in one hour.

The filter cartridge 8 is installed in a manner of inserting the filter cartridge outside a machine body, so that the labor intensity and difficulty in cleaning and replacing the filter cartridge 8 are reduced.

The ratio of the air outlet to the air inlet may be set as: an inlet: the diameter is 250mm, and the area is 0.049m ² ；

And (4) outlet: 700mm 800mm area is: 0.56m ² ；

The ratio of the outlet to the inlet is: 11.4:1, removing the frame, and reaching 10:1;

this design slows down airflow velocity and pressure, slightly windage and noise.

The utility model discloses a design: the cyclone separation system is combined with the filter cylinder 8, so that the dust separation effect is improved, the filter screen is not easy to block, and the working strength is reduced;

cyclone separation and filter screen separation all have respective dust containing box, and two containing boxes have increased the dust and have accomodate the volume, have reduced the frequency of clearance containing box, have reduced secondary pollution's probability.

The inlet of the cyclone separation system is gradually enlarged and a lower milling angle is generated; the pipeline becomes big, has reduced air velocity and pressure, has reduced the loss that the air impact produced, is convenient for dust separation.

The lower milling angle of the inlet of the cyclone separation system can effectively separate large-particle dust.

The guide pipe 2 of the cyclone separation airflow entering the filter screen separation chamber is a streamline airflow channel, so that the energy loss is reduced to the maximum extent.

The proportion setting of gas outlet and air inlet reduces air resistance.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (4)

1. An indoor high-power multifunctional silent dust treatment system is characterized by comprising a main box body, a diversion pipe for enabling a cyclone separation airflow to enter a filter screen separation chamber, a silencing grid and an airflow outlet, an explosion-proof membrane, a fire-extinguishing bottle, a motor, a liquid crystal control panel, a filter cylinder, a filter screen separation dust collection box, a cyclone separation dust collection box, a filter screen separation chamber, a dust airflow inlet, a fan, an accumulator back-blowing pipeline, a gas collection chamber, a pressure storage tank, an electrical appliance control box, a liquid crystal control box, a cyclone separation device, a dust airflow inlet pipe, a cyclone device dust separation port, a fire-extinguishing agent, an electric wire guide pipe and an exhaust box body; the bottom of the main box body is provided with a filter screen separation dust collection box and a cyclone separation dust collection box, the filter screen separation dust collection box is positioned in the middle of the main box body, and the cyclone separation dust collection box is positioned on the left side of the filter screen separation dust collection box; a filter screen separation chamber and a gas collection chamber are arranged in the main box body, the filter screen separation chamber is positioned on the front side of the gas collection chamber, the filter screen separation chamber and the gas collection chamber are separated by a partition plate, two rows of filter cylinders are arranged in the filter screen separation chamber, and the filter cylinders are arranged on a cavity on the partition plate; the filter cartridge is positioned above the filter screen separation dust collection box; the accumulator back-blowing pipeline is communicated with the two rows of filter cylinders;

an exhaust box body is arranged close to the right of the main box body; an airflow outlet is formed in the top of the exhaust box body, and a silencing grid is arranged at the airflow outlet; a fan is arranged in the exhaust box body, the fan is connected with a motor, and a pressure storage tank is arranged at the bottom in the main box body and is positioned below the fan; two fire extinguishing bottles are arranged on the right outer side wall of the exhaust box body, and fire extinguishing agents and electric wire conduits are connected to the fire extinguishing bottles; a liquid crystal control panel is arranged on the front side wall of the main box body and is positioned on the front side of the exhaust box body, and a liquid crystal control box corresponding to the liquid crystal control panel is arranged in the main box body; an electrical appliance control box is arranged at the bottom in the main box body and is positioned below the liquid crystal control panel;

the cyclone separation device is arranged in the main box body and is positioned above the cyclone separation dust collection box, a diversion pipe for enabling the cyclone separation airflow to enter the filter screen separation chamber is arranged at the top of the main box body, one end of the diversion pipe for enabling the cyclone separation airflow to enter the filter screen separation chamber is connected with the cyclone separation device, and the other end of the diversion pipe for enabling the cyclone separation airflow to enter the filter screen separation chamber is connected with the filter cartridge at the uppermost part; a dust airflow inlet pipe is arranged on the cyclone separation device, one end of the dust airflow inlet pipe is positioned on the outer wall of the left side of the main box body, and one end of the dust airflow inlet pipe is a dust airflow inlet; the bottom end of the cyclone separation device is provided with a cyclone device dust separation port, the cyclone separation device is connected with a fire extinguishing agent and electric wire conduit, and a fire extinguishing agent pipeline and a temperature detection cable are arranged in the fire extinguishing agent and electric wire conduit; the explosion-proof membrane is arranged on the front side of the main box body and is positioned on the front side of the filter screen separation chamber.

2. The indoor high-power multifunctional silent dust treatment system as claimed in claim 1, wherein one end of the dust air inlet pipe is provided with a check valve and a connecting flange.

3. The indoor high-power multifunctional mute dust treatment system according to claim 1 or 2, wherein the main box body is a 3mm steel plate shell and is provided with a steel structure frame.

4. The indoor high-power multifunctional silent dust disposal system according to claim 3, wherein said filter cartridges are provided in six.

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