CN211462451U - Intelligent vibration dust remover - Google Patents

Abstract

The utility model provides an intelligent vibration dust collector, which comprises an air purifying chamber and a dust collecting chamber, wherein one side of the dust collecting chamber is provided with an air inlet, a cover plate with an air outlet is arranged above the air purifying chamber, the dust collecting chamber is positioned below the air purifying chamber, a filter bag is arranged in the air purifying chamber, a vibration component for cleaning the filter bag is arranged below the cover plate, the vibration component is connected with the filter bag, and the bottom surface of the dust collecting chamber is provided with a dust falling port; the bottom surface in the dust collecting chamber is provided with a scraping piece and a scraping motor, the middle of the bottom surface of the dust collecting chamber is provided with the scraping motor, the upper end of an output shaft of the scraping motor penetrates through the bottom of the dust collecting chamber, and the upper end of the output shaft of the scraping motor is provided with the scraping piece; the bottom of the dust collecting chamber is provided with an air-closing unloading mechanism, and the position of the air-closing unloading mechanism corresponds to the position of the dust falling port. The utility model discloses simple structure, it is convenient to maintain, and use cost is low, through setting up wind pressure sensor, can in time discover the filter effect of filter bag to start the vibration subassembly through the PLC controller and carry out online dust removal to the filter bag.

Description

Intelligent vibration dust remover

Technical Field

The utility model belongs to the technical field of dust collecting equipment, specifically speaking are intelligent vibration dust remover.

Background

The existing dust removing equipment for dust-containing gas mainly comprises a bag type dust remover, a filter cylinder type dust remover, a pulse dust remover and the like, wherein the bag type dust remover and the pulse dust remover remove dust in the gas through the filtering action of filter bags, and the filter cylinder type dust remover filters the dust in the gas through filter cylinders.

In practical use, the devices have some problems, such as that the bag type dust collector can not realize online dust cleaning work, the pulse dust collector can realize online dust cleaning but has a complex structure and higher production cost, and the filter drum type dust collector is not only high in price but also not suitable for filtering the dust containing a large amount of fibrous dust.

SUMMERY OF THE UTILITY MODEL

The utility model provides an intelligence vibration dust remover for solve the problem that the filter bag dust removal structure is complicated, use cost is high, reach the beneficial effect that realizes that the filter bag removes dust, reduces use cost on line intelligently.

The utility model discloses a following technical scheme realizes:

the intelligent vibration dust collector comprises an air purifying chamber and a dust collecting chamber, wherein an air inlet is formed in one side of the dust collecting chamber, a cover plate with an air outlet is arranged above the air purifying chamber, the dust collecting chamber is positioned below the air purifying chamber, a filter bag is arranged in the air purifying chamber, a vibration component for cleaning the filter bag is arranged below the cover plate, the vibration component is connected with the filter bag, and a dust falling port is formed in the bottom surface of the dust collecting chamber; the bottom surface in the dust collecting chamber is provided with a scraping piece and a scraping motor, the middle of the bottom surface of the dust collecting chamber is provided with the scraping motor, the upper end of an output shaft of the scraping motor penetrates through the bottom of the dust collecting chamber, and the upper end of the output shaft of the scraping motor is provided with the scraping piece; the bottom of the dust collecting chamber is provided with an air-closing unloading mechanism, and the position of the air-closing unloading mechanism corresponds to the position of the dust falling port; the dust collecting chamber in be equipped with the wind pressure sensor, the wind pressure sensor is connected with external PLC controller, the vibration subassembly with scrape the material motor and all be connected with the PLC controller.

Preferably, a hanging frame and a perforated plate are arranged in the air purifying chamber from top to bottom, the hanging frame comprises a circular ring, a circular rod, a connecting plate with an arc-shaped notch, a vertical plate and a mounting frame, the circular ring is arranged above the air purifying chamber, the connecting plate and the vertical plate are arranged in the circular ring in a crossed manner, the circular rod penetrates through the connecting plate, the connecting plate is connected with the upper end of the filter bag, and the mounting frame is arranged above the vertical plate; the perforated plate is provided with mounting holes for fixing the filter bags.

Preferably, the vibration subassembly include vibrating motor, spring, gland nut, bolt and adjusting nut, the mounting bracket on be equipped with vibrating motor, vibrating motor is connected with the PLC controller, apron and mounting bracket on all be equipped with the through-hole that supplies the bolt to pass, the bolt both ends are respectively the gland nut that the threaded mounting is used for fixed apron and mounting bracket interval, the bolt upper end is equipped with screw-thread fit's adjusting nut, be equipped with the spring between adjusting nut and the gland nut.

Preferably, the air-tight discharging mechanism comprises a first shell, a sealing insertion plate and a dust bag, wherein the first shell with an opening at one end is arranged on the bottom surface of the dust collecting chamber, the first shell is communicated with the inside of the dust collecting chamber, the position of the first shell corresponds to that of the dust falling port, the sealing insertion plate used for blocking the dust falling port is arranged inside the opening end of the first shell, the sealing insertion plate is in sliding fit with the first shell, and the dust bag communicated with the inside of the first shell is arranged on the bottom surface of the first shell.

Preferably, the air-tight discharge mechanism comprises a second shell, a screw conveyor and an air-tight device, wherein the second shell is arranged below the dust falling port, the screw conveyor is arranged below the second shell, and the air-tight device is arranged between the dust falling port and the second shell.

Preferably, the scraping piece comprises a cone and a transverse plate, the upper end of the output shaft of the scraping motor is connected with the bottom surface of the cone, an L-shaped scraping plate is arranged on the side surface of the cone, and the opening direction of a concave part of the scraping plate is opposite to the movement direction.

Preferably, the bottom surface of the dust collecting chamber is provided with an access hole, a sealing cover is arranged in the access hole, the bottom surface of the dust collecting chamber is provided with a rotary blocking piece through a cylinder, and the top surface of the rotary blocking piece is in contact with the bottom surface of the sealing cover.

Preferably, two groups of symmetrically distributed reinforcing rods are arranged on the bracket of the dust collecting chamber, one group is obliquely arranged, and the other group is of a cross structure.

The utility model has the advantages that:

the utility model has simple structure, convenient maintenance and low use cost, can timely perceive the filtering effect of the filter bag by arranging the wind pressure sensor, starts the vibration component to perform online dust removal on the filter bag by the PLC controller, and realizes the function of online automatic dust removal of the filter bag by adopting the mode that the vibration motor drives the filter bag to shake; the dust on the filter bag falls into the dust collecting chamber, the scraping part is driven to move by the scraping motor, the dust in the dust collecting chamber is moved to the dust falling port, the cleaning dead angle near the dust falling port is eliminated, and the dust is removed more thoroughly; the air-tight discharging mechanism is further arranged, the processing flow is optimized, the collected dust does not need to be manually processed for multiple times, the labor intensity is reduced, and the use is more convenient.

The utility model discloses a gland nut and bolt cooperation will vibrate the subassembly and fix in the apron, ensure the stability of using, and use through adjusting nut and gland nut's cooperation, adjust the pretightning force of spring, the spring gives the activity surplus of gallows all directions, and does not influence the reliability of using.

The utility model can plug the dust falling port through the sliding fit of the sealing plugboard and the first shell, thereby realizing the function of replacing the dust collecting bag without stopping working, ensuring the filtering work to be carried out all the time and avoiding influencing the working efficiency; can also realize the transport of online dust through closing wind ware and screw conveyer, the dust is cleared up promptly and is carried away promptly, improves the convenience of using, reduces artifical intensity of labour.

The utility model is suitable for an on the living beings granule production technology line, can filter the fibrous dust in the gas, the handling capacity is big, and the filter effect is good, reduces discharge gas's dust content, improves operational environment.

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, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a first schematic structural diagram of a first embodiment;

FIG. 2 is a second schematic structural diagram of the present invention;

FIG. 3 is a top view of FIG. 2;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is a bottom view of FIG. 2;

FIG. 6 is a schematic structural view of a vibration assembly;

FIG. 7 is a schematic view of the connection of the vibration module to the cover plate;

FIG. 8 is a schematic structural view of a perforated plate;

FIG. 9 is a schematic view of the interior of the dirt collection chamber;

FIG. 10 is a schematic structural view of a gas-tight discharge structure in the first embodiment;

fig. 11 is a schematic structural view of a gas-closing and discharging structure in the second embodiment.

In the figure, 1, a gas purifying chamber; 2. a dust collecting chamber; 3. an air inlet; 4. a cover plate; 5. an air outlet; 6. a filter bag; 7. a vibrating assembly; 71. a circular ring; 72. a round bar; 73. a connecting plate; 74. a vertical plate; 75. a mounting frame; 76. a vibration motor; 77. a perforated plate; 78. mounting holes; 79. a bolt; 80. a compression nut; 81. adjusting the nut; 82. a spring; 91, scraping the material; 911. cone: 912. a squeegee; 92. a scraping motor; 101. a first housing; 102. sealing the inserting plate; 103. a dust collection bag; 104. a second housing; 105. a screw conveyor; 106. an air lock; 11. a wind pressure sensor; 121. an access hole; 122. sealing the cover; 123. rotating the baffle plate; 13. a reinforcing bar; 14. a dust falling port.

Detailed Description

In order to make the technical solutions in the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below 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, but 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 shall belong to the protection scope of the present invention.

Example 1

An intelligent vibration dust remover, as shown in fig. 1-4, comprises a gas purifying chamber 1 and a dust collecting chamber 2, wherein a gas inlet 3 is arranged at one side of the dust collecting chamber 2, and dust-containing gas enters the gas purifying chamber 1 from the gas inlet 3 for filtering; a cover plate 4 with an air outlet 5 is arranged above the air purifying chamber 1, the cover plate 4 is used for installing a vibration component, and the filtered air leaves from the air outlet 5; the dust collecting chamber 2 is positioned below the air purifying chamber 1, and the dust collecting chamber 2 is used for collecting dust falling from the filter bag 6; a filter bag 6 is arranged in the air purifying chamber 1, and the filter bag 6 is used for filtering gas containing fibrous dust; a vibration component 7 for cleaning the filter bag 6 is arranged below the cover plate 4, the vibration component 7 is connected with the filter bag 6, and the vibration component 7 drives the filter bag 6 to shake for dust removal; a dust falling port 14 is formed in the bottom surface of the dust collecting chamber 2, and the dust falling port 14 is used for processing dust falling from the filter bag 6; the bottom surface in the dust collecting chamber 2 is provided with a scraping piece 91 and a scraping motor 92, the middle of the bottom surface of the dust collecting chamber 2 is provided with the scraping motor 92, the scraping motor 92 drives the scraping piece 91 to move, the upper end of an output shaft of the scraping motor 92 penetrates through the bottom of the dust collecting chamber 2, the upper end of the output shaft of the scraping motor 91 is provided with the scraping piece 91, and the scraping piece 91 can move dust far away from the dust falling port 14 to the dust falling port 14; the bottom of the dust collecting chamber 2 is provided with an air-closing discharging mechanism, the position of the air-closing discharging mechanism corresponds to the position of the dust falling port 14, and the air-closing discharging mechanism is used for processing the collected dust; a wind pressure sensor 11 is arranged in the dust collecting chamber 2, and the wind pressure sensor 11 is used for measuring the condition in the dust collecting chamber 2 so as to judge whether the filter bag 6 needs to be cleaned; the specification of the wind pressure sensor 11 is 1000-; the wind pressure sensor 11 is connected with an external PLC (programmable logic controller), the type of the PLC is Siemens PLC st20, the vibration component 7 and the scraping motor 92 are connected with the PLC, and the PLC controls all the parts.

As shown in fig. 10, the air-tight discharge mechanism comprises a first housing 101, a sealing insert plate 102 and a dust bag 103, wherein the first housing 101 with an opening at one end is arranged on the bottom surface of the dust collection chamber 2, the first housing 101 is communicated with the interior of the dust collection chamber 2, and the position of the first housing 101 corresponds to the position of the dust falling port 14, so that dust enters the dust bag 103 through the dust falling port 14 and the first housing 101; a sealing inserting plate 102 used for blocking the dust falling opening 14 is arranged in the opening end of the first shell 101, the sealing inserting plate 102 is in sliding fit with the first shell 101 to block the dust falling opening 14, and a dust collecting bag 103 communicated with the interior of the first shell 101 is arranged on the bottom surface of the first shell 101.

As shown in fig. 9, the scraping member 91 includes a cone 911 and a horizontal plate 912, the upper end of the output shaft of the scraping motor 92 is connected to the bottom surface of the cone 911, the scraping motor 92 drives the cone 911 to move, an L-shaped scraping plate 912 is arranged on the side surface of the cone 911, the opening direction of the concave part of the scraping plate 912 is opposite to the moving direction, and the long end of the scraping plate 912 in the vertical direction is ensured to contact with dust and move the dust.

As shown in fig. 5 and 10, the bottom surface of the dust collecting chamber 2 is provided with an access hole 121, and the access hole 121 is convenient for workers to enter for repair; a sealing cover 122 is arranged in the access hole 121, and the sealing cover 122 prevents gas from leaking from the access hole 121; the bottom surface of the dust collection chamber 2 is provided with a rotary baffle 123 through a cylinder, the top surface of the rotary baffle 123 is contacted with the bottom surface of the cover 122, and the cover 122 can be fixed in the access hole 121 by the rotary baffle 123. An observation access hole for observing the condition of the filter bag 6 is also arranged in front of the air purifying chamber 1.

As shown in fig. 1 and 2, two sets of symmetrically distributed reinforcing rods 13 are arranged on the bracket of the dust collecting chamber 2, one set is obliquely arranged, and the other set is in a cross structure. The reinforcing rod 13 has a simple structure, is convenient to process, and is favorable for improving the overall stability of the structure.

When the dust-collecting device works, dust-containing gas enters the dust collecting chamber 2 through the gas inlet 3, enters the filter bag 6 in the dust collecting chamber 2 at a low wind speed, and is discharged through the gas outlet 5 of the cover plate 4 after being filtered by the filter bag 6; when dust accumulates on the inner wall of the filter bag 6 to a certain thickness, the air pressure sensor 11 measures that the pressure in the dust collection chamber 2 is increased, and transmits a signal to the PLC controller, and the PLC controller judges that the dust adhered to the inner wall of the filter bag 6 is more and needs to clean the filter bag 6 in time; the PLC sends an instruction to the vibration motor 76, the vibration motor 76 drives the filter bag 6 to vibrate after being started, and dust is shaken off to the bottom of the dust collection chamber 2; in the cleaning process, the wind pressure sensor 11 continuously works, and when the wind pressure sensor detects that the pressure in the dust collecting chamber 2 tends to the pressure through which the gas normally passes, the wind pressure sensor sends a signal to the PLC controller again so that the vibration motor 76 stops working; then, the PLC controller starts the scraping motor 92, the scraping motor 92 drives the cone 911 to rotate, the cone 911 enables dust falling from the filter bag 6 to move to a position far away from the center of the dust collection chamber 2, the scraping piece 912 is prevented from being cleaned incompletely, the cone 911 rotates to drive the scraping piece 912 to move the dust far away from the dust falling port 14 to the dust falling port 14 for processing, and the situation that the use is affected due to excessive dust accumulated in the dust collection chamber 2 is avoided.

When the dust in the dust collecting bag 103 is fully collected, a worker moves the sealing insertion plate 102 to the center of the dust collecting chamber 2 along the inner wall of the first shell 101, the top surface of the sealing insertion plate 102 is in contact with the bottom surface of the dust falling port 14 to block the dust falling port 14, and gas in the dust collecting chamber 2 is prevented from leaking from the dust falling port; then the dust bag 103 is taken down, a new dust bag 103 is mounted on the first shell 101, and the sealing insert plate 102 is moved outwards along the inner wall of the first shell 101, so that the dust collecting chamber 2, the first shell 101 and the dust bag 103 are communicated, and the fallen dust is collected continuously. In the whole replacement process, the gas filter does not need to be stopped, so that the gas is ensured to be filtered all the time, and the working efficiency is not influenced.

Example 2

On the basis of the embodiment 1, as shown in fig. 4, 6 and 8, a hanging frame and a perforated plate 77 are arranged in the air purifying chamber 1 from top to bottom, and the hanging frame is used for installing a vibration motor 76 and a filter bag 6; the hanging bracket comprises a circular ring 71, a circular rod 72, a connecting plate 73 with an arc-shaped notch, a vertical plate 74 and a mounting rack 75, wherein the circular ring 71 is arranged above the air purifying chamber 1, the circular ring 71 is used for mounting the connecting plate 73 and the vertical plate 74, and the connecting plate 73 and the vertical plate 74 which are distributed in a crossed manner are arranged in the circular ring 71; the round rods 72 penetrate through the connecting plates 73, and the round rods 72 are beneficial to improving the connection stability of the connecting plates 73 and the vertical plates 74; the connecting plate 73 is connected with the upper end of the filter bag 6, and the upper end of the filter bag 6 is connected with the arc-shaped notch on the connecting plate 73 through a tie; a mounting rack 75 is arranged above the vertical plate 74, and the mounting rack 75 is used for mounting a vibration motor 76; the perforated plate 77 is provided with a mounting hole 78 for fixing the filter bag 6.

As shown in fig. 6 and 7, the vibration assembly 7 includes a vibration motor 76, a spring 82, a compression nut 80, a bolt 79 and an adjusting nut 81, the mounting bracket 75 is provided with the vibration motor 76, the vibration motor 76 is connected with the PLC controller, and the vibration motor 76 is used for driving the filter bag 6 to shake; through holes for the bolts 79 to pass through are formed in the cover plate 4 and the mounting frame 75, compression nuts 80 for fixing the distance between the cover plate 4 and the mounting frame 75 are respectively installed at two ends of each bolt 79 in a threaded mode, and the hanging frame is installed on the cover plate 4 through the matching of the bolts 79 and the compression nuts 80; the upper end of the bolt 79 is provided with an adjusting nut 81 in threaded fit, and a spring 82 is arranged between the adjusting nut 81 and the compression nut 80; the adjusting nut 81 can be moved along the bolt 79, and the preload of the spring 82 is adjusted by changing the distance between the adjusting nut 81 and the pressing nut 80.

As shown in fig. 11, the air-lock discharge mechanism may alternatively include a second housing 104, a dragon screw conveyor 105 and an air lock 106, the second housing 104 is disposed below the dust falling port 14, the screw conveyor 105 is disposed below the second housing 104, and the screw conveyor 105 is used for transporting falling dust; an air lock 106 is provided between the dust drop port 14 and the second housing 104, and the air lock 106 prevents gas in the dust collecting chamber 2 from leaking.

Before use, the opening end of the filter bag 6 faces the dust collecting chamber 2 and then passes through the mounting hole 78, and the upper end of the filter bag 6 is connected with the connecting plate 73; the bolts 79 penetrate through the through holes on the hanging bracket and the cover plate 4, and the compression nuts 80 which are in threaded fit with the bolts 79 are arranged on the lower side of the hanging bracket and the upper side of the cover plate 4, so that the hanging bracket is fixed on the cover plate 4; then, the spring 82 is mounted on the bolt 79, and the adjusting nut 81 which is in threaded fit with the bolt 79 is mounted at the upper end of the spring 82, and the adjusting nut 81 can move along the bolt 79 to change the distance between the adjusting nut 81 and the pressing nut 80 so as to adjust the pretightening force of the spring 82. The spring 82 gives the hanger moving allowance in all directions, and ensures the dust removing effect of the vibration motor 76 driving the filter bag 6 to shake. When dust in the filter bag 6 falls into the dust collection chamber 2, the air seal device 106 and the spiral conveyor 105 are matched for use, continuous conveying of online dust is achieved, the dust is cleaned and conveyed away, convenience in use is improved, and labor intensity of workers is reduced.

Although the present invention has been described in detail by referring to the drawings in conjunction with the preferred embodiments, the present invention is not limited thereto. Various equivalent modifications or substitutions can be made on the embodiments of the present invention by those skilled in the art without departing from the spirit and substance of the present invention, and these modifications or substitutions are intended to be within the scope of the present invention/any person skilled in the art can easily conceive of changes or substitutions within the technical scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. Intelligent vibration dust remover, including air-purifying chamber and dust collecting chamber, dust collecting chamber one side is equipped with the air inlet, and the apron that has the air outlet is installed to air-purifying chamber top, and the dust collecting chamber is located air-purifying chamber's below, the interior installation filter bag of air-purifying chamber, its characterized in that: a vibration component for cleaning the filter bag is arranged below the cover plate, the vibration component is connected with the filter bag, and a dust falling port is formed in the bottom surface of the dust collecting chamber; the bottom surface in the dust collecting chamber is provided with a scraping piece and a scraping motor, the middle of the bottom surface of the dust collecting chamber is provided with the scraping motor, the upper end of an output shaft of the scraping motor penetrates through the bottom of the dust collecting chamber, and the upper end of the output shaft of the scraping motor is provided with the scraping piece; the bottom of the dust collecting chamber is provided with an air-closing unloading mechanism, and the position of the air-closing unloading mechanism corresponds to the position of the dust falling port; the dust collecting chamber in be equipped with the wind pressure sensor, the wind pressure sensor is connected with external PLC controller, the vibration subassembly with scrape the material motor and all be connected with the PLC controller.

2. The intelligent vibration dust collector of claim 1, wherein: the air purifying chamber is internally provided with a hanging bracket and a perforated plate from top to bottom, the hanging bracket comprises a circular ring, a circular rod, a connecting plate with an arc-shaped notch, a vertical plate and a mounting bracket, the circular ring is arranged above the air purifying chamber, the connecting plate and the vertical plate are arranged in the circular ring in a crossed manner, the circular rod penetrates through the connecting plate, the connecting plate is connected with the upper end of the filter bag, and the mounting bracket is arranged above the vertical plate; the perforated plate is provided with mounting holes for fixing the filter bags.

3. The intelligent vibration dust collector of claim 2, wherein: the vibration subassembly include vibrating motor, spring, gland nut, bolt and adjusting nut, the mounting bracket on be equipped with vibrating motor, vibrating motor is connected with the PLC controller, apron and mounting bracket on all be equipped with the through-hole that supplies the bolt to pass, the bolt both ends respectively the threaded mounting be used for the gland nut of fixed apron and mounting bracket interval, the bolt upper end is equipped with screw-thread fit's adjusting nut, be equipped with the spring between adjusting nut and the gland nut.

4. The intelligent vibration dust collector of claim 1, wherein: the air-tight discharging mechanism comprises a first shell, a sealing insertion plate and a dust collecting bag, wherein the first shell with one open end is arranged on the bottom surface of the dust collecting chamber, the first shell is communicated with the inside of the dust collecting chamber, the position of the first shell corresponds to the position of the dust falling port, the sealing insertion plate used for blocking the dust falling port is arranged in the open end of the first shell, the sealing insertion plate is in sliding fit with the first shell, and the dust collecting bag communicated with the inside of the first shell is arranged on the bottom surface of the first shell.

5. The intelligent vibration dust collector of claim 1, wherein: according to the alternative scheme, the air-tight discharging mechanism comprises a second shell, a spiral conveyor and an air-tight device, the second shell is arranged below the dust falling port, the spiral conveyor is arranged below the second shell, and the air-tight device is arranged between the dust falling port and the second shell.

6. The intelligent vibration dust collector of claim 1, wherein: the scraping piece comprises a cone and a transverse plate, the upper end of an output shaft of the scraping motor is connected with the bottom surface of the cone, an L-shaped scraping plate is arranged on the side surface of the cone, and the opening direction of a concave part of the scraping plate is opposite to the moving direction.

7. The intelligent vibration dust collector of claim 1, wherein: the bottom surface of the dust collecting chamber is provided with an access hole, a sealing cover is arranged in the access hole, the bottom surface of the dust collecting chamber is provided with a rotary separation blade through a cylinder, and the top surface of the rotary separation blade is in contact with the bottom surface of the sealing cover.

8. The intelligent vibration dust collector of claim 1, wherein: the bracket of the dust collecting chamber is provided with two groups of symmetrically distributed reinforcing rods, one group is obliquely arranged, and the other group is of a cross structure.

Images