CN115414743A - Sack cleaner intelligent control ash removal system - Google Patents

Abstract

The invention discloses an intelligent control dust cleaning system of a bag-type dust remover, which comprises a working condition monitoring instrument: the working condition monitoring instrument is used for monitoring the inlet and outlet pressure of the dust remover, the outlet dust concentration and the energy consumed by the fan in real time; an upper computer: the upper computer is connected with the working condition monitoring instrument through a connecting wire, and is provided with a multi-source data analysis module for establishing a mathematical model among outlet pressure, outlet dust concentration and fan energy consumption; an editable controller: the editable controller is connected with the upper computer and is used for driving the opening state of the electromagnetic pulse valve; the device carries out the analysis and the operation of deashing system running state through multisource data analysis module, then transmits optimal parameter to editing logic controller, through the opening and close of editable logic controller control pulse valve, reaches the operating condition who optimizes the dust remover, reduces the purpose of energy consumption, promotes the fortune dimension efficiency of sack cleaner, reduces the operation energy consumption of dust remover.

Description

Sack cleaner intelligent control ash removal system

Technical Field

The invention belongs to the technical field of automatic control of bag-type dust remover systems, and particularly relates to an intelligent control dust cleaning system of a bag-type dust remover.

Background

The bag-type dust collector has the characteristics of high dust collection efficiency, stable operation and the like, and becomes the key technical equipment for solving the problem of industrial dust emission at present. The pulse injection dust removal is the core process of realizing the regeneration of the filtering performance of the filter bag by the bag-type dust remover, and the quality of a control system directly influences the operation energy consumption of the bag-type dust remover and the service life of the filter bag. The running resistance is an important monitoring and controlling parameter in the running process of the bag type dust collector, and the running stability and the energy consumption of the bag type dust collector are seriously influenced by over-high or over-low resistance. The energy consumption of the induced draft fan is increased due to the excessively high running resistance of the bag-type dust collector, so that the negative pressure of a dust-containing air source point is insufficient, the air quantity cannot meet the requirement, and the dust removal effect is poor; if the running resistance is too low, the dust layer attached to the filter bag is damaged, the adsorption effect of the dust layer is reduced, and the dust removal efficiency is reduced. Therefore, the operation resistance of the bag-type dust collector is one of important indexes for evaluating the pulse blowing dust removal control effect, and the control of the operation resistance in a certain range is the basic requirement of automatic control of the bag-type dust collector, and is the key for ensuring the dust removal efficiency and saving energy.

Disclosure of Invention

In order to solve the problems in the prior art, the invention aims to provide an intelligent control dust cleaning system of a bag-type dust collector.

The technical scheme adopted by the invention is as follows:

the utility model provides a sack cleaner intelligent control deashing system, includes the dust remover: the interior of the dust remover is divided into a gas distribution bin and a dust removal bin by a partition plate, the gas distribution bin and the dust removal bin are communicated with each other through a plurality of dust removal components, an electromagnetic pulse valve is installed in the gas distribution bin, an air injection pipe is connected to the electromagnetic pulse valve, and air injection nozzles in one-to-one correspondence with the dust removal components are installed on the air injection pipe;

working condition monitoring instrument: the working condition monitoring instrument is used for monitoring the inlet and outlet pressure of the dust remover, the outlet dust concentration and the energy consumed by the fan in real time;

an upper computer: the upper computer is connected with the working condition monitoring instrument through a connecting line, and a multi-source data analysis module is arranged in the upper computer and used for establishing a mathematical model among outlet pressure, outlet dust concentration and fan energy consumption;

an editable controller: the editable controller is connected with the upper computer and used for driving the opening state of the electromagnetic pulse valve arranged on the dust remover.

Preferably, the working condition monitoring instrument comprises an inlet and outlet pressure sensor, a dust concentration sensor and a fan energy consumption sensor which are connected with the multi-source data analysis module:

the inlet and outlet pressure sensors are arranged at the inlet and outlet of the dust remover and are used for detecting the pressure change of the inlet and outlet of the dust remover in real time;

the dust concentration sensor is arranged at the outlet of the dust remover and is used for detecting the dust concentration at the outlet of the dust remover in real time;

and the fan energy consumption sensor is arranged on the dust remover fan and used for real-time energy consumed by the dust remover fan.

Preferably, the working condition monitoring instrument further comprises a pulse pressure sensor mounted on the electromagnetic pulse valve, the pulse pressure sensor is connected with the multi-source data analysis module and used for detecting pressure change at an outlet of the electromagnetic pulse valve, and the electromagnetic pulse valve is further connected with an indicator light for displaying the opening and closing state of the display.

Preferably, the dust removal assembly comprises a cloth bag frame which is positioned in the dust removal bin and fixedly mounted with the dust remover, an embedded groove and a sliding groove are formed in the cloth bag frame, and a dust removal cloth bag is mounted on the cloth bag frame.

Preferably, the gas distribution bin and the dust removal bin are communicated through an extension guide pipe, the pulse pressure sensor is arranged at the top of the extension guide pipe and used for detecting pressure change at the ejection position of the air nozzle, a rotating sleeve is rotatably connected in the extension guide pipe, a floating valve body is slidably connected in the rotating sleeve, and a one-way valve is mounted on the floating valve body.

Preferably, the bottom of the extension duct is provided with a skirt, and the bottom of the skirt is fixedly provided with force-bearing baffles at equal intervals around the circumferential direction of the extension duct.

Preferably, a guide through hole is formed in the side wall of the rotating sleeve in a penetrating mode, and a reset piece is arranged between the rotating sleeve and the floating valve body.

Preferably, an extension pipe body is fixedly installed at the bottom side of the floating valve body, and a transmission ring is fixedly installed at the outer side of the extension pipe body and connected with the dust removal cloth bag through a vibration assembly.

Preferably, the vibration assembly comprises a driving wheel rotatably connected to the cloth bag frame and a movable sliding body slidably connected to the inside of the chute, the driving wheel is in transmission connection with the driving ring, a rocker is arranged on the driving wheel, and a swinging end of the rocker is connected with the movable sliding body through a connecting rod.

Preferably, the movable sliding body is connected with a contact baffle in a sliding manner, an elastic piece is arranged between the contact baffle and the movable sliding body, and the contact baffle is provided with an installation baffle positioned outside the dust removal cloth bag through a bolt.

The beneficial effects of the invention are as follows:

1. the system can be started from the perspective of a global system, the bag pressure difference is not taken as a unique key parameter, and the dust concentration at the inlet and the outlet of a dust remover, the bag pressure difference and the real-time energy consumption index of a fan are introduced to carry out multidirectional comparison operation; by means of a comparison algorithm, historical database comparison and the like, the relation between the inlet and outlet concentration and the bag operation pressure difference is obtained, the optimal intersection point of the three parameters is found, and the dust remover can be guaranteed to achieve the minimum energy consumption of a fan and the minimum operation loss of a bag on the premise that the dust remover reaches the emission standard.

2. The upper computer gives a warning according to the fault condition of the pulse valve judged by the multi-source data analysis module, displays the serial number of the specific fault pulse valve on the upper computer and automatically and accurately prompts the fault of the specific serial number pulse valve; the overhaul time of the customer operation and maintenance personnel is shortened to the maximum extent, and the replacement of the customer operation and maintenance personnel is facilitated.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram of the system architecture of the present invention;

FIG. 2 is a schematic view of the dust extraction assembly of the present invention;

FIG. 3 is a schematic structural view of the present invention as a whole;

FIG. 4 is a schematic view of a portion of the dust extraction assembly of the present invention;

FIG. 5 is a schematic axial side view of the extension catheter and rotating sleeve of the present invention;

FIG. 6 is a schematic bottom view of the extension catheter and rotating sleeve of the present invention;

FIG. 7 is a schematic side view of the shock assembly of the present invention;

figure 8 is a schematic view of an exploded structure of the shock assembly of the present invention.

In the figure: 1-a dust remover, 2-an electromagnetic pulse valve, 201-an air injection pipe, 3-a dust removing cloth bag, 301-an embedded groove, 302-a sliding groove, 4-a cloth bag frame, 5-an extension guide pipe, 501-a skirt, 502-a stress baffle, 6-a rotating sleeve, 601-a guide through hole, 7-a floating valve body, 701-an extension pipe body, 702-a transmission ring, 8-a reset piece, 9-a one-way valve, 10-a vibration component, 1001-a transmission wheel, 1002-a rocker, 1003-a moving sliding body, 1004-a contact baffle and 1005-a mounting baffle.

Detailed Description

The invention is further described with reference to the following figures and specific embodiments.

The following describes a specific embodiment of the present invention with reference to fig. 1 to 8, and an intelligent control dust cleaning system for a bag-type dust collector comprises a dust collector 1: the interior of the dust remover 1 is divided into a gas distribution bin and a dust removal bin by a partition plate, the gas distribution bin and the dust removal bin are communicated with each other through a plurality of dust removal components, an electromagnetic pulse valve 2 is installed in the gas distribution bin, an air injection pipe 201 is connected to the electromagnetic pulse valve, and air injection nozzles corresponding to the dust removal components one to one are installed on the air injection pipe 201;

working condition monitoring instrument: the working condition monitoring instrument is used for monitoring the inlet and outlet pressure of the dust remover 1, the outlet dust concentration and the energy consumed by the fan in real time;

an upper computer: the upper computer is connected with the working condition monitoring instrument through a connecting wire, and is provided with a multi-source data analysis module for establishing a mathematical model among outlet pressure, outlet dust concentration and fan energy consumption;

an editable controller: the editable controller is connected with the upper computer and is used for driving the opening state of the electromagnetic pulse valve 2 arranged on the dust remover 1.

Preferably, the working condition monitoring instrument comprises an inlet and outlet pressure sensor, a dust concentration sensor and a fan energy consumption sensor which are connected with the multi-source data analysis module:

the inlet and outlet pressure sensors are arranged at the inlet and outlet of the dust remover 1 and are used for detecting the pressure change of the inlet and outlet of the dust remover 1 in real time;

the dust concentration sensor is arranged at the outlet of the dust remover 1 and is used for detecting the dust concentration at the outlet of the dust remover 1 in real time;

and the fan energy consumption sensor is arranged on the fan of the dust remover 1 and is used for real-time energy consumed by the fan of the dust remover 1.

The method comprises the steps that pressure data (bag pressure difference) of an inlet and an outlet of a dust remover, dust concentration data of the outlet of the dust remover and energy consumption of a draught fan of the dust remover are detected in real time, collected data information is transmitted to a multi-source data analysis module, and then a mathematical analysis model is established by coupling and combining a historical database;

the system is based on the global system, the bag pressure difference is not taken as the only key parameter, but the dust concentration at the inlet and the outlet of the dust remover, the bag pressure difference and the real-time energy consumption index of the fan are introduced for multi-directional comparison operation; the method comprises the steps of obtaining the relation between inlet and outlet concentration and bag operation pressure difference through methods such as comparison algorithm, historical database comparison and the like, finding the optimal intersection point of the three parameters, designing a standard interval of outlet dust concentration according to national standards, determining the bag pressure difference and fan energy consumption data corresponding to the dust concentration in the standard interval as an effective interval, and selecting a pressure value corresponding to an interval with lower fan energy consumption in the effective interval as the bag pressure difference interval, so that the dust remover can be guaranteed to have the minimum energy consumption and the minimum bag operation loss on the premise of meeting the standard.

Preferably, in an embodiment of the present invention, referring to fig. 1 again, the operating condition monitoring apparatus further includes a pulse pressure sensor 202 mounted on the electromagnetic pulse valve 2, the pulse pressure sensor 202 is connected to the multi-source data analysis module and is configured to detect a pressure change at an outlet of the electromagnetic pulse valve 2, and the electromagnetic pulse valve 2 is further connected to an indicator light for displaying an open/close state of the display.

The opening and closing of the pulse valve are controlled by an editable logic controller; the pulse valve is a diaphragm valve, the diaphragm divides the pulse valve into a front air chamber and a rear air chamber, when the compressed air is communicated, the compressed air enters the rear air chamber through the throttling hole, the pressure of the air chamber enables the diaphragm to be tightly attached to an output port of the valve, the pulse valve is in a closed state, and the pressure sensor on the air distribution box displays closed pressure; the armature of the electromagnetic pulse valve is moved by an electric signal of the pulse controller, an air release hole of the air chamber behind the valve is opened, the vocal cords of the rear air chamber lose pressure, the diaphragm moves backwards, compressed air can be blown through the valve output port, the pulse valve is in an 'open' state, and the pressure sensor on the air distribution box displays 'open' pressure;

the upper computer gives a warning according to the fault condition of the pulse valve judged by the multi-source data analysis module, displays the serial number of the specific fault pulse valve on the upper computer and automatically and accurately prompts the fault of the specific serial number pulse valve; the overhaul time of the customer operation and maintenance personnel is shortened to the maximum extent, and the replacement of the customer operation and maintenance personnel is facilitated.

Preferably, in an embodiment of the present invention, referring to fig. 2-3 again, the dust removing assembly includes a cloth bag frame 4 fixedly installed with the dust remover 1 in the dust removing bin, the cloth bag frame 4 is provided with an embedded groove 301 and a sliding groove 302, and the cloth bag frame 4 is provided with a dust removing cloth bag 3.

When the dust remover works, dust-removed gas is introduced from a gas inlet at the lower side of the dust remover 1, and is filtered by the dust removing component and then discharged from a gas outlet above the dust remover 1;

when the dust removing device is used for dust removing, the electromagnetic pulse valve 2 is opened, pulse gas is blown into the dust removing cloth bag 3 through the gas spraying pipe 201 through the gas spraying nozzle to expand the dust removing cloth bag 3, the dust removing cloth bag 3 is vibrated under the action of the pulse gas, dust attached to the dust removing cloth bag 3 is shaken off, and then the dust remover 1 is cleaned.

Preferably, in an embodiment of the present invention, referring to fig. 2 to 5 again, the air distribution bin and the dust removal bin are communicated through an extension duct 5, the pulse pressure sensor 202 is disposed at the top of the extension duct 5 and is used for detecting a pressure change at the air nozzle ejection position, a rotating sleeve 6 is rotatably connected to the extension duct 5, a floating valve body 7 is slidably connected to the inside of the rotating sleeve 6, and a check valve 9 is mounted on the floating valve body 7.

The non-return valve 9 is arranged to allow gas to pass to the upper side of the floating valve body 7 only from the lower side of the floating valve body 7.

Specifically, the bottom of the extension duct 5 is provided with a skirt 501, and the bottom of the skirt 501 is fixedly provided with force-bearing baffles 502 at equal intervals around the circumferential direction of the extension duct 5.

Furthermore, a guide through hole 601 is formed in the side wall of the rotating sleeve 6 in a penetrating manner, and a reset piece 8 is arranged between the rotating sleeve 6 and the floating valve body 7.

When dust removal is carried out, gas to be subjected to dust removal is introduced from a gas inlet at the lower side of the dust remover 1, and is discharged from a gas outlet above the dust remover 1 after being filtered, the floating valve body 7 is attached to the upper end of the rotating sleeve 6 under the action of the reset piece 8, the floating valve body 7 blocks a guide through hole 601 on the side wall of the rotating sleeve 6, and the gas filtered by the dust removal cloth bag 3 has the lower side and flows upwards through the one-way valve 9;

when ash removal is carried out, after the electromagnetic pulse valve 2 is opened, pulse gas passes through the extension guide pipe 5, the floating valve body 7 is pushed to move downwards under the action of the guide valve 9 until the floating valve body 7 is pushed to the bottom of the rotating sleeve 6 (at the moment, the transmission ring 702 fixedly connected to the floating valve body 7 is attached to the vibration component 10), the pulse gas is discharged from the guide through hole 601 formed in the side wall of the rotating sleeve 6 under the blocking of the floating valve body 7, and reverse acting force is generated after the force-bearing baffle plate 502 fixedly arranged on the bottom skirt 501 of the extension guide pipe 5 is acted, the rotating sleeve 6 is pushed to rotate, in the rotating process, the transmission ring 702 fixedly connected to the floating valve body 7 is driven by the vibration component 10, and the dust removal cloth bag 3 is driven to vibrate through the vibration component 10.

Preferably, in an embodiment of the present invention, referring to fig. 1 to 8 again, an extension pipe 701 is fixedly installed on the bottom side of the floating valve body 7, and a driving ring 702 is fixedly installed on the outer side of the extension pipe 701 and connected with the dust collection cloth bag 3 through a vibration assembly 10.

Specifically, the vibration assembly 10 includes a transmission wheel 1001 rotatably connected to the cloth bag frame 4 and a movable sliding body 1003 slidably connected to the inside of the chute 302, the transmission wheel 1001 is in transmission connection with the transmission ring 702, a rocker 1002 is disposed on the transmission wheel 1001, and a swinging end of the rocker 1002 is connected to the movable sliding body 1003 through a connecting rod.

Furthermore, a contact baffle 1004 is slidably connected to the movable sliding body 1003, an elastic member is disposed between the contact baffle 1004 and the movable sliding body 1003, and an installation baffle 1005 located outside the dust collection cloth bag 3 is installed on the contact baffle 1004 through a bolt.

The floating valve body 7 drives the extension pipe body 701 fixed at the lower part of the floating valve body to rotate in the rotating process, the transmission ring 702 and the transmission wheel 1001 are driven to transmit in the rotating process, the rocker 1002 fixed at the lower end of the floating valve body is further driven to rotate, the movable sliding body 1003 is pushed by the connecting rod connected to the swinging end at the end part of the floating valve body to perform net reciprocating movement in the chute 302, the dust removal cloth bag 3 is further driven to shake by the contact baffle 1004, the dust removal cloth bag 3 is mechanically driven to shake by the vibration component 10 on the basis of shaking of the gas dust removal cloth bag 3, dust attached to the dust removal cloth bag 3 is rapidly fallen off, and a better action effect is achieved;

when the dust removal cloth bag 3 is installed, the dust removal cloth bag 3 is clamped between the contact baffle 1004 and the installation baffle 1005 and fixed by using bolts, and the contact baffle 1004 can do irregular motion in the reciprocating motion process of the movable sliding body 1003 by arranging the elastic piece between the contact baffle 1004 and the movable sliding body 1003.

The invention is not limited to the above alternative embodiments, and any other various forms of products can be obtained by anyone in the light of the present invention, but any changes in shape or structure thereof, which fall within the scope of the present invention as defined in the claims, fall within the scope of the present invention.

Claims (10)

1. The utility model provides a sack cleaner intelligent control ash removal system which characterized in that: comprises a dust remover (1): the interior of the dust remover (1) is divided into a gas distribution bin and a dust removal bin by a partition plate, the gas distribution bin and the dust removal bin are communicated with each other through a plurality of dust removal components, an electromagnetic pulse valve (2) is installed in the gas distribution bin, the electromagnetic pulse valve (2) is connected with an air injection pipe (201), and air injection nozzles which correspond to the dust removal components one by one are installed on the air injection pipe (201);

working condition monitoring instrument: the working condition monitoring instrument is used for monitoring the inlet and outlet pressure, the outlet dust concentration and the energy consumed by the fan of the dust remover (1) in real time;

an upper computer: the upper computer is connected with the working condition monitoring instrument through a connecting line, and a multi-source data analysis module is arranged in the upper computer and used for establishing a mathematical model among outlet pressure, outlet dust concentration and fan energy consumption;

an editable controller: the editable controller is connected with the upper computer and used for driving the opening state of the electromagnetic pulse valve (2) arranged on the dust remover (1).

2. The intelligent control dust cleaning system of the bag-type dust collector according to claim 1, which is characterized in that: the working condition monitoring instrument comprises an inlet and outlet pressure sensor, a dust concentration sensor and a fan energy consumption sensor which are connected with the multi-source data analysis module:

the inlet and outlet pressure sensor is arranged at the inlet and outlet of the dust remover (1) and is used for detecting the pressure change of the inlet and outlet of the dust remover (1) in real time;

the dust concentration sensor is arranged at the outlet of the dust remover (1) and is used for detecting the dust concentration at the outlet of the dust remover (1) in real time;

the fan energy consumption sensor is arranged on the fan of the dust remover (1) and used for real-time energy consumed by the fan of the dust remover (1).

3. The intelligent control dust cleaning system of the bag-type dust collector according to claim 2, which is characterized in that: the working condition monitoring instrument further comprises a pulse pressure sensor (202) installed on the electromagnetic pulse valve (2), the pulse pressure sensor (202) is connected with the multi-source data analysis module and used for detecting pressure change at the outlet of the electromagnetic pulse valve (2), and an indicator light used for displaying the opening and closing states is further connected to the electromagnetic pulse valve (2).

4. The intelligent bag-type dust collector control dust cleaning system according to claim 3, characterized in that:

the dust removal assembly comprises a cloth bag frame (4) which is positioned in the dust removal bin and fixedly mounted with the dust remover (1), an embedded groove (301) and a sliding groove (302) are formed in the cloth bag frame (4), and a dust removal cloth bag (3) is mounted on the cloth bag frame (4).

5. The intelligent control dust cleaning system of the bag-type dust collector according to claim 4, wherein: divide the gas storehouse with through extending pipe (5) intercommunication between the dust removal storehouse, pulse pressure sensor (202) set up extend the top of pipe (5) for detect the pressure change of air nozzle blowout department, it is connected with rotating sleeve (6) to extend pipe (5) internal rotation, the inside sliding connection who rotates sleeve (6) has floating valve body (7), install check valve (9) on floating valve body (7).

6. The intelligent control dust cleaning system of the bag-type dust collector according to claim 5, wherein: the bottom of extension pipe (5) is provided with shirt rim (501), the bottom of shirt rim (501) is round the fixed atress baffle (502) that are provided with of the circumferencial direction equidistance of extension pipe (5).

7. The intelligent control dust cleaning system of the bag-type dust collector according to claim 5, wherein: the side wall of the rotating sleeve (6) is provided with a guide through hole (601) in a penetrating mode, and a reset piece (8) is arranged between the rotating sleeve (6) and the floating valve body (7).

8. The intelligent control dust cleaning system of the bag-type dust collector according to claim 5, wherein: an extension pipe body (701) is fixedly installed on the bottom side of the floating valve body (7), and a transmission ring (702) is fixedly installed on the outer side of the extension pipe body (701) and connected with the dust removal cloth bag (3) through a vibration assembly (10).

9. The intelligent control dust cleaning system of the bag-type dust collector according to claim 8, wherein: the vibration component (10) comprises a driving wheel (1001) rotatably connected to the cloth bag frame (4) and a movable sliding body (1003) connected to the inside of the sliding groove (302) in a sliding mode, the driving wheel (1001) is in transmission connection with the transmission ring (702), a rocker (1002) is arranged on the driving wheel (1001), and the swinging end of the rocker (1002) is connected with the movable sliding body (1003) through a connecting rod.

10. The intelligent bag-type dust collector control dust cleaning system according to claim 9, characterized in that: the movable sliding body (1003) is connected with a contact baffle (1004) in a sliding mode, an elastic piece is arranged between the contact baffle (1004) and the movable sliding body (1003), and an installation baffle (1005) located outside the dust removal cloth bag (3) is installed on the contact baffle (1004) through bolts.

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