RU2793668C1 - Aspiration dust collector - Google Patents

Abstract

FIELD: air cleaning technologies.

SUBSTANCE: aspiration dust collecting plant contains local suction of dust from technological equipment, connected by a flexible corrugated air duct to a vortex inertial dust collector located in a trolley with wheels on counter swirling flows, which is connected through a sluice gate to a dust storage hopper and is equipped with a power source, an air duct system with dust air flow rate controllers and an exhaust fan, the output of which is connected to the atmosphere through the outlet duct. The air duct system is additionally equipped with dust-air flow rate sensors, while flow regulators and dust-air flow rate sensors are installed on the outlet air duct and on the air ducts connected to the lower and upper inlets of the vortex inertial dust collector. Dust-air flow rate regulators are equipped with solenoids. The unit is equipped with light and sound alarms to notify of the optimal setting of the dust air flow rate regulators and of deviations from the optimal setting of the dust air flow rate, and a controller equipped with a pulse converter of the dust air flow rate sensors, a pulse analyser, an operation threshold setting unit, a unit for comparing the value of pulses and the operation threshold, united in an electric circuit for controlling the actuator for setting the ratio of the flow rates of dust air flows of air ducts.

EFFECT: improving the quality of cleaning the dust-air flow and the operational reliability of the dust-collecting installation, reducing the labour intensity of maintenance and operating costs.

1 cl, 1 dwg

Description

The invention relates to the mining, metallurgical industry, construction industry, other branches of economic activity and can be used to clean dust emissions when loading bulk and dust-like materials into vehicles at construction sites, in the shops of processing plants, cement plants.

The closest technical solution for cleaning dust emissions should include a well-known aspiration dust collecting installation containing local dust extraction from process equipment connected in series with air ducts, a dust collecting device in the form of a vortex inertial dust collector on counter loading flows and an exhaust fan located on a wheeled mobile cart with a power source for an exhaust fan in the form of a diesel generator and a dust storage bin, while the air duct connecting the local dust extraction from the process equipment with a vortex inertial dust collector is made in the form of a flexible corrugated air duct, which is connected at the inlet to a tangential swirler of the air flow with dust installed on the local suction dust, and at the upper axial outlet of the vortex inertial dust collector there is a tangential air flow untwist, to which the suction inlet of the exhaust fan is connected by means of an air duct, with an air flow rate regulator installed in it, connected to the atmosphere, and the recirculating air duct is connected to a separator-concentrator, the outlets of which are two air ducts with dust-air flow rate regulators connected respectively to the upper inlet and lower inlet of the vortex inertial dust collector (patent RU No. 147794, IPC V08V15/02, V04S9/00, 2014).

The disadvantage of the proposed as a prototype aspiration dust-collecting installation is that when aspirating a dust-air flow, setting the ratio of air flow rates is not provided without the participation of the operator, which reduces the efficiency of air purification, plant productivity and increases the complexity of maintenance and operating costs.

The objective of the invention is the automation of the dust collection plant, which provides automatic adjustment of the ratio of air flow rates of the dusty air ducts of the aspiration dust collection plant.

The technical result is to improve the quality of dust-air flow cleaning and the operational reliability of the dust-collecting installation, as well as to reduce the labor intensity of maintenance and operating costs.

The technical result is achieved by using an aspiration dust collecting plant containing local dust extraction from process equipment connected by a flexible corrugated air duct to a vortex inertial dust collector located on a trolley with wheels on counter swirling flows, which is connected through a sluice gate to a dust storage bin and is equipped with a power source , a system of air ducts with dust-air flow rate controllers and an exhaust fan, the outlet of which is connected to the atmosphere through the outlet air duct, while the air duct system is additionally equipped with dust-air flow flow sensors, while flow controllers and dust-air flow flow sensors are installed on the outlet air duct and on air ducts connected with lower and upper inlets of a vortex inertial dust collector, moreover, the dust-air flow rate controllers are equipped with solenoids, and the unit is equipped with light and sound alarms to notify of the optimal setting of the dust-air flow controllers and of deviation from the optimal setting of the dust-air flow rate, and a controller equipped with a pulse converter of flow sensors dusty-air flow, pulse analyzer, threshold setting unit, unit for comparing the value of pulses and the threshold, combined into an electric circuit for controlling the actuator for setting the ratio of the flow rates of dusty airflows of air ducts.

The essence of the invention lies in the fact that in the air duct system of the aspiration dust-collecting unit with dust-air flow rate controllers, dust-air flow sensors and solenoids are additionally installed, which provide automatic adjustment of the ratio of air flow rates for complete cleaning of the dust-air flow of the aspiration dust-collection unit, and a controller equipped with a pulse converter of dust-air flow sensors. flow, pulse analyzer, threshold setting unit, unit for comparing the value of pulses and the threshold. The solenoids of the flow regulators are part of the electrical circuit for controlling the actuator for adjusting the ratio of the air duct flow, including light and sound alarms, designed to notify the operator, respectively, of the optimal setting of the dust-air flow regulators and the deviation from the optimal setting of the dust-air flow. The exhaust fan and the actuator for setting the flow regulators are switched on by an electrical circuit switch, and the setting of the flow regulators, light and sound alarms are controlled automatically.

The claimed invention is illustrated by graphical material: the drawing schematically shows a General view of the aspiration dust collection plant.

Suction dust collecting installation contains a housing 1 mounted on the base of a mobile trolley 2, providing movement of the installation to the technological equipment 3, which creates dust flows, for example, in the back of a dump truck.

A vortex inertial dust collector 5 is installed in the housing 1 on counter swirling flows with the help of a support 4, which is equipped with an upper 6 and a lower 7 dust-air flow inlet, a sluice gate 8 connected to a dust-accumulating bin 9.

The air duct connecting the local suction 10 of dust from the process equipment 3 with the vortex inertial dust collector 5 is made in the form of a flexible corrugated duct 11, which is connected at the inlet to the tangential swirler 12 installed on the local suction 10 and is connected to the upper inlet 6 of the vortex inertial dust collector 5.

At the upper axial outlet 13 of the vortex inertial dust collector 5, an air flow untwist 14 is installed, to which, by means of an air duct 15, the suction inlet of the exhaust fan 17 is connected, fixed with a support 16. atmosphere.

At the same time, the outlet of the exhaust fan 17, by means of a recirculating duct 20, is connected to the separator - concentrator 22 installed on the support 21, the outlet of which, through the ducts 23 and 24, with the regulators 25 and 26 installed on them, is connected to the lower 7 and upper 6 inputs, respectively. of the dust-air flow of the vortex inertial dust collector 5. The air flow regulators 18, 25 and 26 are combined, respectively, with the solenoids S1, S2 and S3, designed to automatically adjust the flow area of the air flow regulators to a ratio that ensures complete cleaning of dust from the dust-air flow at the outlet of the vortex inertial dust collector 5 in atmosphere. To evaluate the optimal ratio of the air flow rate with the regulators 18, 25 and 26 in the air ducts 19, 23 and 24, respectively, the flow sensor 27 (D1) of the dusty air flow, the flow sensor 28 (D2) of the dusty air flow and the flow sensor 29 (D3) of the dusty air flow are installed. flow. For automatic processing of information from the readings of flow sensors D1, D2 and D3 and setting the ratio of costs for the optimal mode of cleaning the dusty air flow and controlling costs using solenoids S1, S2 and S3, the controller 30 and the power source 31 are used, made in the form of a diesel generator mounted on a trolley 2, which is also the power supply for the exhaust fan 17 with switch W1. The adjustment of the ratio of costs to the optimal mode of operation is controlled by the air flow regulators 18, 25 and 26 after the signals of the sensors D1, D2 and D3 are converted in the controller 30 by turning on the contacts K1, K2 and K3 of the electrical circuit 32 with the switch W2, respectively.

The controller 30 is equipped with a signal converter for dust-air flow sensors, pulse analyzers, an operation threshold setting unit, a unit for comparing the value of signals and the operation threshold entering the electric circuit for controlling the solenoids of the actuator for setting the ratio of air duct flow, connected by an electric circuit 32 connected to a power source 31 through a switch W2, designed to control contact K4 for switching on a light L signaling to alert the operator about the optimal flow through regulators 18, 25 and 26 of the dusty air flow of air ducts 19, 23 and 24 and contact K5 for turning on a sound Z signaling to alert the operator about a deviation from the optimal flow through regulators 18, 25 and 26 dusty air flow ducts 19, 23 and 24.

Technological equipment 3, for example, a dump truck of a vehicle for transporting bulk materials, is equipped with a shelter in the form of a cover 33, containing a hatch 34 for loading bulk material and a ledge 35, on which a local dust suction 10 is installed, located in the immediate vicinity of the hatch 34. 33 to the ends of the vehicle is carried out using clamps (not shown in the drawing).

Aspiration dust collecting installation works as follows.

Before starting the operation of the installation, technological equipment 3, for example, a dump truck, is equipped with a shelter in the form of a cover 33. The dust-collecting installation, mounted on a mobile cart 2, is supplied to the technological equipment 3. A local dust suction 10 connected by a flexible corrugated air duct 11 with a tangential swirler 12. Bulk material is loaded through the hatch 34 and using the power source 31, the switch W1 turns on the exhaust fan 17 of the aspiration unit and the controller 30, which is used to set the operating mode of the unit. During the adjustment of the controller 30 to the operating mode, the signals of the dust-air flow sensors are converted into electrical impulses in the unit, the ratios of the air duct flow rates are analyzed and a comparative assessment of the values is performed, and in the adjustment threshold setting the expected threshold is set, taking into account the obtained values, and fixed using solenoids S1, S2 and S3 operating mode of optimal flow rates through the regulators 18, 25 and 26 of the dusty air flow of the air ducts 19, 23 and 24, respectively, through the contacts K1, K2 and K3 of the electrical circuit 32, and through the contact K4, the inclusion of a light L alarm alerting the operator about the optimal flow rate of the regulators 18, 25 and 26 of the dusty air flow of the air ducts 19, 23 and 24 and through the contact K5 of the sound Z signaling the operator about the deviation from the optimal flow through the regulators 18, 25 and 26 of the dusty air flow of the air ducts 19, 23 and 24.

Dust emissions generated during loading are sent through the local dust suction 10 to the tangential swirler 12 and through the flexible corrugated duct 11 to the upper inlet 6 of the vortex inertial dust collector 5. The swirling dust flow is cleaned in the vortex inertial dust collector 5. The released dust is discharged through the slotted shutter 8 into the dust bin 9.

After cleaning in a vortex inertial dust collector 5, air containing residual fine dust fractions is sent through the upper axial outlet 13 to the flow untwist 14, which reduces the aerodynamic resistance of the air flow, which is then directed through the air duct 15 to the suction inlet of the exhaust fan 17, after which the air the flow is divided into two directions: through the air duct 19, equipped with a flow regulator 18 and the recirculating air duct 20 into the separator - concentrator 22, in which the dusty air stream is divided again into two streams - with a higher and lower concentration of dust. The flow with a lower concentration of dust through the duct 23, with the flow controller 25 installed on it, is directed to the lower inlet 7 of the vortex inertial dust collector 5, and the flow with a higher concentration of dust through the duct 24, with the flow controller 26 installed on it, is directed to the upper inlet 6 vortex inertial dust collector 5. At the same time, by automatically adjusting the controller 30 of the flow controllers 18, 25 and 26, the ratio of air flow rates is ensured in the air ducts for complete cleaning of the dust of the dusty air flow of the aspiration dust collecting installation.

Thus, an aspiration dust collecting plant, containing a local suction of dust from process equipment, connected by a flexible corrugated air duct to a vortex inertial dust collector located on a trolley with wheels on counter swirling flows, which is connected through a sluice gate to a dust storage bin and is equipped with a power source, a system air ducts, equipped with dust-air flow sensors, dust-air flow regulators equipped with solenoids, and an exhaust fan, the outlet of which is connected to the atmosphere through the outlet air duct, equipped with light and sound alarms to notify of the optimal setting of the dust-air flow regulators and of deviations from the optimal setting of the dust-air flow flow, and a controller equipped with a pulse converter of dust-air flow sensors, a pulse analyzer, an operation threshold adjustment unit, a unit for comparing the value of impulses and an operation threshold, combined into an electric circuit for controlling the actuator for setting the ratio of dust-air flows in air ducts, provides an increase in the quality of dust-air flow cleaning and operational reliability of the dust collection plant, as well as reducing the labor intensity of maintenance and operating costs.

Claims (1)

Suction dust collecting plant containing local suction of dust from process equipment connected by a flexible corrugated air duct to a vortex inertial dust collector located in a body mounted on a cart with wheels on counter swirling flows, which is connected through a sluice gate to a dust storage bin and is equipped with a power source, an air duct system with regulators dusty air flow rate and an exhaust fan, the outlet of which is connected to the atmosphere through the outlet duct, characterized in that the air duct system is additionally equipped with dusty air flow rate sensors, while flow regulators and dusty air flow rate sensors are installed on the outlet air duct and on the air ducts connected to the lower and the upper inlets of the vortex inertial dust collector, moreover, the dust-air flow rate controllers are equipped with solenoids, and the unit is equipped with light and sound alarms to notify of the optimal setting of the dust-air flow controllers and the deviation from the optimal setting of the dust-air flow rate, and a controller equipped with a pulse converter of the dust-air flow flow sensors, an impulse analyzer, an operation threshold setting unit, a unit for comparing the value of impulses and the operation threshold, combined into an electric circuit for controlling the actuator for setting the ratio of the flow rates of dusty air flows in air ducts.

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