CN114471951B - Dust collecting equipment with dust suppression structure - Google Patents

Abstract

The utility model discloses dust removing equipment with a dust suppression structure, which comprises a dust remover main body and a first connecting pipe, wherein the first connecting pipe is arranged on the outer wall of one side of the dust remover main body, and a storage box is arranged at one end of the first connecting pipe; the bottom wall of storage tank is installed the division board, inlet tube and water pump are installed at the top of storage tank, the storage tank is installed to the bottom wall of storage tank, and the storage tank is located one side of division board, servo motor is installed to the bottom wall of storage tank, the puddler is installed to servo motor's output, the top of storage tank runs through and is provided with the spout, infusion steel pipe is installed to the output of water pump, the nozzle is installed to the one end of infusion steel pipe. According to the utility model, the first connecting pipe, the storage box, the water pump and the nozzle are arranged, so that the biological nano film is sprayed into the dust remover main body through the nozzle, and can collide with the entered dust, and the aim of dust suppression is fulfilled.

Description

Dust collecting equipment with dust suppression structure

Technical Field

The utility model relates to the technical field of dust removal, in particular to dust removal equipment with a dust suppression structure.

Background

The dust removing equipment is equipment for separating dust and the like from smoke, but the existing dust removing equipment mainly extracts the smoke into the dust removing equipment through a dust inlet pipe, and then the dust and other impurities in the smoke are adsorbed and filtered layer by layer, and then the clean smoke is discharged through an exhaust pipe, but the existing dust removing equipment still has great defects in the using process, so that the dust removing equipment with a dust suppression structure is urgently needed.

The existing dust removing equipment has the following defects:

1. patent document CN214287342U discloses a gas dust collecting equipment, which comprises a base, the base top surface is provided with the box that is used for removing dust, from down upwards having set gradually ceramic filter layer, active carbon layer, sponge filter layer, non-woven fabrics layer and baffle in the box, the baffle bottom surface is provided with the air duct, baffle top surface symmetry is provided with the water tank, be provided with first breather pipe between the water tank, first breather pipe side is provided with the second breather pipe that extends to water tank one side bottom, water tank opposite side top surface is provided with the air vent, the box top surface is provided with the gas outlet that has the dust blocking net. According to the utility model, suspended dust in air can be efficiently and thoroughly removed through the cooperation of the ceramic filter layer, the active carbon layer, the sponge filter layer, the non-woven fabric layer and the water tank, so that the production environment of industrial production is effectively protected, the health of operators is protected, the air humidity can be ensured through the water tank, but the dust removing equipment in the above publication mainly protects the health of the operators and ensures the air humidity through the water tank, and the fact that the flue gas of the existing dust removing equipment directly collides with the filter cylinder after entering the dust removing equipment through the dust inlet pipe is not considered, and the dust with large particle diameter in the flue gas is extremely easy to scratch the surface of the filter cylinder, so that the dust removing effect is affected;

2. patent document CN211706225U discloses a high-efficient energy-concerving and environment-protective dust collecting equipment, including the dust collecting equipment main part, the both sides fixedly connected with installation piece and the mounting panel of dust collecting equipment main part inner wall, the quantity of installation piece and mounting panel is four, four the first mounting groove has all been seted up to one side that the dust collecting equipment main part was kept away from to the installation piece, four the second mounting groove has all been seted up to the inside of mounting panel, four the inside swing joint of first mounting groove has first filter screen and second filter screen respectively. According to the high-efficiency energy-saving environment-friendly dust removal equipment, the first filter screen and the second filter screen are arranged in the dust removal equipment main body, large particles and small particles in waste gas introduced into the dust removal equipment main body can be filtered respectively, and the active carbon filter box is arranged, so that finer particles and peculiar smell in the waste gas can be filtered, the aim of high-efficiency energy-saving environment-friendly dust removal is achieved, but the dust removal equipment in the above publication mainly considers adsorption filtration of fine particles and peculiar smell in the flue gas, does not consider that the existing dust removal equipment is not provided with a protection structure when cleaning, and is extremely easy to cause the phenomenon that dust moves upwards and is discharged from an exhaust pipe;

3. patent document CN210674532U discloses an indoor dust collecting equipment for green building, relates to dust collecting equipment technical field, and the interior component of dust collection that adopts for solving current indoor dust collecting equipment for green building is a filter, and the penetration of such dust has certain limitation, and traditional filter all needs to take it out, changes, inconvenient operation's problem. The dust collecting device comprises a dust collecting device upper main body mechanism, a dust collecting device lower main body mechanism, a dust collecting device top protection mechanism, a fan mechanism, a metal protection bracket and a dust collecting device outlet end, wherein the dust collecting device lower main body mechanism is arranged below the dust collecting device upper main body mechanism;

4. patent document CN214182383U discloses an environmental protection engineering dust removing device with an adjustable spraying mechanism, comprising a dust removing device body; an air inlet is formed in one side of the dust removing equipment body, an air outlet is formed in the top end of the dust removing equipment body, and a spraying mechanism is arranged below the air outlet; the filter screen plate is characterized in that a filler layer is arranged below the spraying mechanism, a filter screen plate matched with the inner wall structure of the dust removing equipment body is arranged below the filler layer, a filter screen is arranged in the filter screen plate, a connecting shaft is fixedly arranged at the center of the filter screen, a cleaning brush plate is rotatably connected to the upper portion of the connecting shaft, and cleaning bristles used for cleaning the filter screen are arranged on the lower surface of the cleaning brush plate. According to the dust removing device disclosed by the utility model, the cleaning brush plate with the cleaning brush is arranged on the filter screen in the dust removing device body, the cleaning brush plate is rotationally connected with the connecting shaft on the filter screen, and is driven to rotate through the driving gear on the driving motor, and the filter screen is cleaned, but the dust removing device disclosed by the publication mainly considers how to clean the filter screen, and does not consider the phenomenon that most of dust is directly discharged on the ground after the existing dust removing device removes dust, and dust flies easily in the discharging process.

Disclosure of Invention

The present utility model is directed to a dust removing apparatus having a dust suppressing structure, which solves the problems set forth in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the dust removing equipment with the dust suppression structure comprises a dust remover main body and a first connecting pipe, wherein the first connecting pipe is arranged on the outer wall of one side of the dust remover main body, and a storage box is arranged at one end of the first connecting pipe;

the storage box comprises a storage box body, wherein a partition plate is arranged on the bottom wall of the storage box body, a water inlet pipe and a water pump are arranged at the top of the storage box body, the water pump is positioned at the front side of the water inlet pipe, a storage box is arranged at the bottom wall of the storage box body, the storage box is positioned at one side of the partition plate, a servo motor is arranged at the bottom wall of the storage box body, a stirring rod is arranged at the output end of the servo motor, a sliding groove is arranged at the top of the storage box body in a penetrating manner, the sliding groove is positioned at the other side of the partition plate, an infusion steel pipe is arranged at the output end of the water pump, the infusion steel pipe is positioned at the inner side of the sliding groove, a nozzle is arranged at one end of the infusion steel pipe, and the nozzle is positioned in the storage box body;

and a spray hole is formed in the edge of the outer wall of one side of the nozzle.

Preferably, the internally mounted of dust shaker main part has the active carbon fiberboard of arranging from top to bottom, one side outer wall of dust shaker main part runs through and is provided with the slot, the inside slidable mounting of slot has the sealing block, one side outer wall of sealing block installs the rubber baffle, and one side outer wall of rubber baffle laminates with one side outer wall of dust shaker main part mutually, the size of rubber baffle is greater than the size of sealing block, the opposite side of sealing block is provided with the recess, filtering baffle is installed to the inside gomphosis of recess, and filtering baffle is located the inside of dust shaker main part, one side outer wall of filtering baffle is provided with the inserted block, one side inner wall of dust shaker main part is provided with the jack, and the internal surface of jack laminates with the surface of inserted block mutually, filtering baffle's bottom is installed and is pressed down the dirt board, and press down the both sides outer wall of dirt board and laminate mutually in the opposite side outer wall of sealing block and one side inner wall of dust shaker main part respectively.

Preferably, the front of dust shaker main part runs through and is provided with the second notch, the inside gomphosis of second notch is installed the connecting plate, the back-mounted of connecting plate has the otter board of arranging from top to bottom, and two sets of otter boards all are located the centre of two sets of activated carbon fiber boards, the surface that two sets of otter boards are close to each other all installs the pin that the equidistance was arranged around three sets of, wherein the surface that two sets of pin are close to each other all cup joints and installs first section of thick bamboo about, and the top of first section of thick bamboo is laminated with the bottom of top otter board mutually, the surface mounting of first section of thick bamboo has the bamboo charcoal fibrous layer, the surface mounting of bamboo charcoal fibrous layer has first silicone resin layer, the front-mounted of dust shaker main part has the thing circle seat of putting of arranging from top to bottom, and two sets of putting the thing circle seat and be located the top and the below of second notch respectively, the connecting piece is all installed at the top and bottom of two sets of connecting pieces, two sets of lugs all with put thing circle seat gomphosis mutually.

Preferably, the ash discharging pipe is installed to the bottom of dust shaker main part, and the opposite side outer wall of dust shaker main part runs through and is provided with the storage groove, and the inside slidable mounting of storage groove has the storage board, and wet dust absorption cloth is all installed to the top and the bottom of storage board, and the surface mounting of ash discharging pipe has a storing section of thick bamboo, and the surface of storing section of thick bamboo runs through and is provided with first notch, and the inside slidable mounting of first notch has the storing frame.

Preferably, the inside slidable mounting of first connecting pipe has the baffle, and the push rod is installed to one side outer wall of baffle, and the push rod is "L" font, and the push rod is located the side top of infusion steel pipe, and the dog is installed on the top of push rod, and the bottom of dog is laminated mutually with the top of storage tank, and the dog is located one side of infusion steel pipe, and the nozzle is located one side of baffle.

Preferably, the second filter cartridge is mounted on the outer surface of the middle group of stop rods in a jogged manner, the top of the second filter cartridge is attached to the bottom of the upper screen plate, the electrostatic adsorption layer is mounted on the outer surface of the second filter cartridge, the second silicone resin layer is mounted on the outer surface of the electrostatic adsorption layer, and the second silicone resin layer is located between the two groups of first silicone resin layers.

Preferably, the second connecting pipe is installed to one side outer wall of dust shaker main part, and the second connecting pipe is located the below of rubber baffle, and electromagnetic pulse valve is installed to the one end of second connecting pipe, and the air pocket is installed to electromagnetic pulse valve's input, and the jetting pipe is installed to electromagnetic pulse valve's output, and the jetting pipe is located the centre of top active carbon fiber board and dust suppression board.

Preferably, the dust inlet pipe is arranged on the outer wall of the other side of the dust remover main body, the dust inlet pipe is positioned above the object placing groove, the exhaust pipe is arranged on the outer wall of the other side of the dust remover main body, and the exhaust pipe is positioned above the dust inlet pipe.

Preferably, a controller is mounted on the outer wall of one side of the dust remover main body, the controller is electrically connected with the electromagnetic pulse valve, the controller is located above the first connecting pipe, and the controller is located below the air bag.

Preferably, the dust removing device comprises the following working steps:

s1, pouring a biological nano film preparation and water into a storage box, starting a servo motor in the storage box to enable the biological nano film preparation and the water to drive a stirring rod to rotate, further enabling the biological nano film preparation and the water to be uniformly mixed, sucking dust into the interior of a main body of the dust remover through a dust inlet pipe, simultaneously starting a water pump to enable the biological nano film preparation and the water which are uniformly stirred in the storage box to be conveyed into the interior of an infusion steel pipe, pushing a stop block in a chute to enable the stop block to be driven to move into the interior of the main body of the dust remover under the action of a push rod, then spraying the biological nano film in the infusion steel pipe into the interior of the main body of the dust remover, and colliding with dust entering the dust inlet pipe at the moment, so that the purpose of sucking and agglomerating the dust into large granular dust particles is achieved, and falling into the interior of the storage box through a dust discharge pipe under the action of gravity, and further achieving a better dust inhibition effect to a certain extent;

s2, enabling the residual dust floating in the dust remover main body to move upwards, enabling part of dust to enter the first filter cylinder and the second filter cylinder through the screen after being adsorbed and filtered by the active carbon fiber board below, enabling the dust to be adsorbed and filtered for the second time through the bamboo carbon fiber layer and the electrostatic adsorption layer inside the filter cylinder, enabling the dust to enter the active carbon fiber board above, and finally enabling clean air to be discharged from the exhaust pipe;

s3, inserting the filtering baffle into a groove on one side of the sealing block, and plugging the sealing block into the slot until the outer wall of one side of the rubber baffle is attached to the outer wall of one side of the dust remover main body, at the moment, the inserting block on the filtering baffle is embedded with the inserting hole on the inner wall of one side of the dust remover main body, and then starting the electromagnetic pulse valve to enable the electromagnetic pulse valve to blow gas in the gas bag into the dust remover main body through the blowing pipe, so that dust which is adhered and adsorbed on the activated carbon fiber board, the first filter cylinder and the second filter cylinder can be blown and shaken off, and the dust is collected into the storage frame;

s4, the connecting plate is pulled, so that the lug on the back of the connecting piece can be driven to be not embedded with the object placing ring seat any more, then the screen plate can be taken out of the dust remover main body, and then the first filter cylinder and the second filter cylinder on the stop lever can be replaced, so that the dust removing effect of the dust remover can be improved to a certain extent.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the first connecting pipe, the storage box, the water pump, the sliding chute, the servo motor, the stirring rod and the nozzle are arranged, in the use process, the biological nano film preparation and the water are firstly put into the storage box through the water inlet pipe, then the servo motor is started to drive stirring to stir the biological nano film preparation and the water uniformly, when the flue gas enters the interior of the dust remover main body through the dust inlet pipe, the water pump can be started, the biological nano film in the storage box can be extracted, and the biological nano film can be sprayed into the interior of the dust remover main body through the nozzle, so that the biological nano film preparation and the water can collide with the entered dust, and the aim of dust suppression is achieved, and the probability of damaging the surface of the filter cylinder due to the collision of the dust is reduced.

2. According to the utility model, the active carbon fiber plate, the sealing block, the rubber baffle, the filtering baffle, the dust suppression plate and the slot are arranged, before dust on the filter cylinder is treated, the filtering baffle is inserted into the groove on the sealing block and is plugged into the slot, so that the inserting block can be driven to be embedded with the jack, then the filtering baffle and the dust suppression plate can play a role in protection, and the probability of upward drifting of the dust in the cleaning process is reduced.

3. According to the utility model, the second notch, the connecting plate, the object placing ring seat, the screen plate, the first filter cylinder, the bamboo charcoal fiber layer and the first silicone resin layer are arranged, the connecting plate is pulled outwards, the convex blocks on the connecting piece are not embedded with the object placing ring seat, then the screen plate can be taken out of the dust remover main body, so that a worker can conveniently replace the filter cylinder, and the first silicone resin layer and the second silicone resin layer are respectively arranged on the surfaces of the first filter cylinder and the second filter cylinder, so that the wear resistance of the surfaces of the first filter cylinder and the second filter cylinder can be improved to a certain extent.

4. According to the dust collecting device, the storage plate, the storage cylinder and the storage frame are arranged, when dust is discharged, the storage plate with the wet dust collecting cloth is pulled out of the storage groove, the storage frame is plugged into the storage cylinder, and then the dust is discharged into the storage frame through dust discharge and replacement, so that dust can be collected.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of an assembled structure of a second slot of the present utility model;

FIG. 3 is a schematic diagram of an assembled structure of a storage barrel according to the present utility model;

FIG. 4 is a schematic diagram of an assembled structure of a socket and a seal block of the present utility model;

FIG. 5 is a schematic view of an assembled construction of a connection plate and a second filter cartridge of the present utility model;

FIG. 6 is a schematic plan view of an assembled structure of the storage bin and baffle plate of the present utility model;

FIG. 7 is a schematic plan view of a second connecting tube according to the present utility model;

fig. 8 is a schematic diagram of an assembled structure of the electromagnetic pulse valve and the controller of the present utility model.

In the figure: 1. a dust remover main body; 101. a dust inlet pipe; 102. an exhaust pipe; 2. a first connection pipe; 201. a storage box; 202. a partition plate; 203. a water pump; 204. a chute; 205. a storage box; 206. a servo motor; 207. a stirring rod; 208. a nozzle; 3. an activated carbon fiber board; 301. a sealing block; 302. a rubber baffle; 303. a filtering baffle; 304. a dust suppression plate; 305. a slot; 4. a baffle plate; 401. a push rod; 402. a stop block; 5. a storage plate; 501. a storage barrel; 502. a storage frame; 6. a second notch; 601. a connecting plate; 602. a storage ring seat; 603. a screen plate; 604. a connecting piece; 605. a bump; 606. a stop lever; 607. a first filter cartridge; 608. a bamboo charcoal fiber layer; 609. a first silicone resin layer; 7. a second filter cartridge; 701. an electrostatic adsorption layer; 702. a second silicone resin layer; 8. a second connection pipe; 801. an electromagnetic pulse valve; 802. an air bag; 803. a blowing pipe; 9. and a controller.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1 and 6, an embodiment of the present utility model is provided: the utility model provides a dust collecting equipment with dust suppression structure, including dust shaker main part 1, first connecting pipe 2 and baffle 4, first connecting pipe 2 is installed to one side outer wall of dust shaker main part 1, storage tank 201 is installed to one end of first connecting pipe 2, division board 202 is installed to the diapire of storage tank 201, inlet tube and water pump 203 are installed at the top of storage tank 201, and water pump 203 is located the side place ahead of inlet tube, storage tank 205 is installed to the diapire of storage tank 201, and storage tank 205 is located one side of division board 202, servo motor 206 is installed to the diapire of storage tank 205, puddler 207 is installed to servo motor 206's output, the top of storage tank 201 runs through and is provided with spout 204, and spout 204 is located the opposite side of division board 202, the infusion steel pipe is installed to the output of water pump 203, and the infusion steel pipe is located the inboard of spout 204, the nozzle 208 is installed to the one end of infusion steel pipe, and nozzle 208 is located the inside of storage tank 201, one side outer wall edge of nozzle 208 is provided with the orifice, dust pipe 101 is installed to the opposite side outer wall of dust shaker main part 1, and dust pipe 101 is located the top of putting the thing groove, blast pipe 102 is installed to the opposite side outer wall of dust shaker main part 1, and blast pipe 102 is located the top of dust pipe 101, the inside slidable mounting of first connecting pipe 2 has baffle 4, the push rod 401 is installed to the one side outer wall of baffle 4, and push rod 401 is "L" font, push rod 401 is located the side top of infusion steel pipe, dog 402 is installed on the top of push rod 401, and the bottom of dog 402 is laminated with the top of storage tank 201, dog 402 is located one side of infusion steel pipe, nozzle 208 is located one side of baffle 4.

Further, the partition plate 202 arranged in the storage box 201 can divide the storage box 201 into two equal parts, before the dust removing equipment is used for removing dust, biological nano-film preparations and water are injected into the storage box 201, the biological nano-film preparations and the water are uniformly stirred by driving the stirring rod 207 through the servo motor 206, smoke is sucked into the dust remover main body 1 through the dust inlet pipe 101, the stop block 402 is moved in the chute 204, the stop plate 4 can be driven to move in the first connecting pipe 2 under the action of the push rod 401 until the baffle plate moves into the dust remover main body 1, meanwhile, the water pump 203 is started, the mixed preparations in the storage box 201 can be sucked into the nozzle 208 through the infusion steel pipe, the mixed preparations are sprayed into the dust remover main body 1 through the spray holes on the surface of the water, dust is wrapped on the dust surface after being collided with the dust inside the dust, and the dust is adsorbed with small particle dust, so that the dust can be agglomerated into large particle dust, the dust can be not only improved in dust removing efficiency to a certain extent, but also can effectively reduce the probability of damaging the dust friction filter drum surface,

referring to fig. 4, 7 and 8, an embodiment of the present utility model is provided: the utility model provides a dust collecting equipment with dust suppression structure, including activated carbon fiberboard 3, second connecting pipe 8 and controller 9, the internally mounted of dust shaker main part 1 has activated carbon fiberboard 3 that arranges from top to bottom, one side outer wall of dust shaker main part 1 runs through and is provided with slot 305, sealed piece 301 is installed to the inside slidable of slot 305, one side outer wall of sealed piece 301 installs rubber baffle 302, and one side outer wall of rubber baffle 302 is laminated with one side outer wall of dust shaker main part 1, the size of rubber baffle 302 is greater than the size of sealed piece 301, the opposite side of sealed piece 301 is provided with the recess, filtering baffle 303 is installed to the inside gomphosis of recess, and filtering baffle 303 is located the inside of dust shaker main part 1, one side outer wall of filtering baffle 303 is provided with the inserted block, one side inner wall of dust shaker main part 1 is provided with the jack, and the internal surface of jack is laminated with the surface of inserted block, the dust suppression plate 304 is installed to the bottom of filtering baffle 303, and the both sides outer wall that presses down the dust board 304 is laminated with one side inner wall of dust shaker main part 1 respectively in the opposite side outer wall of sealing block 301, second connecting pipe 8 is installed to one side outer wall of dust shaker main part 1, and second connecting pipe 8 is located the below of rubber baffle 302, electromagnetic pulse valve 801 is installed to the one end of second connecting pipe 8, air pocket 802 is installed to the input of electromagnetic pulse valve 801, the injection pipe 803 is installed to the output of electromagnetic pulse valve 801, and injection pipe 803 is located the centre of top active carbon fiber board 3 and dust suppression plate 304, controller 9 is installed to one side outer wall of dust shaker main part 1, and electric connection between controller 9 and the electromagnetic pulse valve 801, controller 9 is located the top of first connecting pipe 2, controller 9 is located the side below of air pocket 802.

Further, when cleaning the filter device in the dust collector body 1, the sealing block 301 is firstly taken out from the slot 305, the filtering baffle 303 is inserted into the groove on the sealing block 301, then the sealing block 301 is inserted into the slot 305 to enable the inserting block on one side of the filtering baffle 303 to be embedded with the inserting hole on the inner wall of the dust collector body 1, then the electromagnetic pulse valve 801 is started through the controller 9, then the gas in the gas bag 802 can be blown onto the surfaces of the first filter cylinder 607 and the second filter cylinder 7 in the activated carbon fiber plate 3 and the net plate 603 through the blowing pipe 803, and then dust adhered to the surfaces of the first filter cylinder 607 and the second filter cylinder 7 can be blown off, and the dust suppressing plate 304 is arranged to avoid the condition that the dust upwards surges in the blowing process.

Referring to fig. 2 and 5, an embodiment of the present utility model is provided: the utility model provides a dust collecting equipment with press down dirt structure, including second notch 6 and second filter cartridge 7, the front of dust shaker main part 1 runs through and is provided with second notch 6, connecting plate 601 is installed to the inside gomphosis of second notch 6, the otter board 603 of arranging from top to bottom is installed to the back of connecting plate 601, and two sets of otter board 603 all are located the centre of two sets of activated carbon fiber boards 3, the surface that two sets of otter board 603 are close to each other all installs three sets of pin 606 that the equidistance was arranged around, wherein the surface that two sets of pin 606 are close to each other all cup joints and installs first filter cartridge 607, and the top of first filter cartridge 607 is laminated with the bottom of top otter board 603 mutually, the surface mounting of first filter cartridge 607 has bamboo charcoal fiber layer 608, the surface mounting of bamboo charcoal fiber layer 608 has first silicone resin layer 609, the front mounting of dust shaker main part 1 has the thing circle seat 602 of arranging from top to bottom, and two sets of thing circle seat 602 are located the top and below of second notch 6 respectively, the top and bottom of connecting plate 601 all install connecting piece 604, the back mounting of two sets of connecting piece 604 has the lug, the surface mounting 605 has the lug and the second layer of silicone layer of cloth 605 and the second filter cartridge 7 is laminated with the surface mounting of second filter cartridge 7 layer 702 mutually, the surface mounting of silicone layer of layer 702 is laminated with the surface mounting 7.

Further, when the first filter cartridge 607 and the second filter cartridge 7 need to be replaced, the connection plate 601 is pulled first, so that the protruding blocks 605 on the back of the connection piece 604 are not embedded with the object placing ring seat 602, then the connection plate can be taken out from the dust remover main body 1, the first filter cartridge 607 and the second filter cartridge 7 are inserted into the stop bars 606 on the corresponding positions on the lower screen plate 603, the stop bars 606 on the upper screen plate 603 limit the first filter cartridge 607 and the second filter cartridge 7, and then replacement of the first filter cartridge 607 and the second filter cartridge 7 can be completed, and the wear resistance of the surfaces of the first filter cartridge 607 and the second filter cartridge 7 can be improved due to the fact that the first silicone resin layer 609 and the second silicone resin layer 702 are respectively arranged on the surfaces of the connection plate, so that the probability of damaging the surfaces of the first filter cartridge 607 and the second filter cartridge 7 due to dust friction can be reduced to a certain extent, and the service lives of the first filter cartridge 607 and the second filter cartridge 7 can be further improved.

Referring to fig. 3, an embodiment of the present utility model is provided: the utility model provides a dust collecting equipment with press down dirt structure, includes puts thing board 5, and the ash pipe is installed to the bottom of dust shaker main part 1, and the opposite side outer wall of dust shaker main part 1 runs through and is provided with puts the thing groove, and the inside slidable mounting who puts the thing groove has and puts thing board 5, and wet-type dust absorption cloth is all installed to the top and the bottom of putting thing board 5, and the surface mounting of ash pipe has a storing section of thick bamboo 501, and the surface of storing section of thick bamboo 501 runs through and is provided with first notch, and the inside slidable mounting of first notch has storing frame 502.

Further, in the dust suppression process, the object placing plate 5 is always inserted into the dust remover main body 1 through the object placing groove, after dust removal is finished, the object placing plate 5 is taken out from the object placing groove, and in the process, dust on the surface of the object placing plate 5 on the wet dust collection cloth can fall into the object storing frame 502, so that the purpose of collecting the dust is achieved.

Further, the dust removing equipment comprises the following working steps:

s1, firstly pouring a biological nano film preparation and water into a storage box 201, starting a servo motor 206 in a storage box 205 to drive a stirring rod 207 to rotate, further uniformly mixing the biological nano film preparation and the water, sucking dust into the interior of a dust remover main body 1 through a dust inlet pipe 101, simultaneously starting a water pump 203 to convey the uniformly stirred biological nano film preparation and the water in the storage box 201 into an infusion steel pipe, pushing a stop block 402 in a chute 204 to drive a baffle plate 4 to move into the interior of the dust remover main body 1 under the action of a push rod 401, then spraying the biological nano film in the infusion steel pipe into the interior of the dust remover main body 1, and colliding with dust entering the dust inlet pipe 101 at the moment, so that the purpose of sucking and agglomerating the dust to form large granular dust particles is achieved, and the dust falls into the interior of a storage frame 502 through a dust discharge pipe under the action of gravity, so that a better dust suppression effect can be achieved to a certain extent;

s2, the residual dust floating in the dust remover main body 1 moves upwards of the dust remover main body 1, part of the dust is adsorbed and filtered by the lower activated carbon fiber board 3 and then enters the first filter cylinder 607 and the second filter cylinder 7 through the screen 603, the dust is secondarily adsorbed and filtered by the inner bamboo carbon fiber layer 608 and the electrostatic adsorption layer 701 and then enters the upper activated carbon fiber board 3, and finally clean air is discharged from the exhaust pipe 102;

s3, inserting the filtering baffle 303 into a groove on one side of the sealing block 301, and plugging the sealing block 301 into the slot 305 until the outer wall of one side of the rubber baffle 302 is attached to the outer wall of one side of the dust remover main body 1, at this time, the inserting block on the filtering baffle 303 is embedded with the inserting hole on the inner wall of one side of the dust remover main body 1, then starting the electromagnetic pulse valve 801, so that the air in the air bag 802 can be blown into the dust remover main body 1 through the blowing pipe 803, and dust which is adhered and adsorbed on the activated carbon fiber board 3, the first filter cylinder 607 and the second filter cylinder 7 can be blown and vibrated, and collected into the storage frame 502;

s4, the connecting plate 601 is pulled, the protruding blocks 605 on the back of the connecting piece 604 can be driven to be not embedded with the object placing ring seat 602 any more, then the net plate 603 can be taken out of the dust remover main body 1, then the first filter cylinder 607 and the second filter cylinder 7 on the stop lever 606 can be replaced, and the dust removing effect can be improved to a certain extent.

Working principle: the partition plate 202 can divide the storage box 201 into two equal parts of spaces, the biological nano film preparation and water are poured into the storage box 201 through the water inlet pipe, the servo motor 206 is started, the stirring rod 207 is driven to rotate, the biological nano film preparation and water in the storage box 201 can be uniformly mixed, then smoke enters the interior of the dust remover main body 1 through the dust inlet pipe 101, meanwhile, the water pump 203 is started, the stop block 402 is pushed in the chute 204, the stop block 4 can be pushed to enter the interior of the dust remover main body 1, after the water pump 203 is started, the biological nano film in the transfusion steel pipe can be sprayed into the interior of the dust remover main body 1 through the spray holes on the periphery of the surface of the spray nozzle 208, so that the biological nano film is attracted and agglomerated into large granular dust particles, and falls into the interior of the storage frame 502 through the dust discharge pipe under the action of gravity, so that a better dust suppression effect can be achieved to a certain extent;

the residual dust floating in the dust remover main body 1 moves upwards, enters the first filter cartridge 607 and the second filter cartridge 7 through the screen 603 after being subjected to primary adsorption filtration by the lower activated carbon fiber board 3, and reaches the upper activated carbon fiber board 3 after being subjected to secondary adsorption filtration by the bamboo carbon fiber layer 608 and the electrostatic adsorption layer 701 in the dust, wherein the first silicone resin layer 609 and the second silicone resin layer 702 can improve the wear resistance of the surfaces of the first filter cartridge 607 and the second filter cartridge 7, and further reduce the probability of poor dust removal effect caused by collision of the dust with the dust;

then, the filtering baffle 303 can be inserted into the groove on one side of the sealing block 301, the sealing block 301 is plugged into the slot 305, at this time, the plug on the filtering baffle 303 is embedded with the jack, then the electromagnetic pulse valve 801 is started, so that dust adhered and adsorbed on the activated carbon fiber board 3, the first filter cartridge 607 and the second filter cartridge 7 can be blown and shaken off through the blowing pipe 803 and collected into the storage frame 502, and the connecting plate 601 can be pulled, so that the first filter cartridge 607 and the second filter cartridge 7 on the screen 603 can be taken out from the dust remover main body 1 and replaced, and the dust removing effect of the dust removing equipment can be improved to a certain extent.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. Dust collecting equipment with press down dirt structure, including dust shaker main part (1) and first connecting pipe (2), its characterized in that: a first connecting pipe (2) is arranged on the outer wall of one side of the dust remover main body (1), and a storage box (201) is arranged at one end of the first connecting pipe (2);

the utility model discloses a water pump, including storage tank, baffle (202) are installed to the diapire of storage tank (201), inlet tube and water pump (203) are installed at the top of storage tank (201), and water pump (203) are located the side front of inlet tube, storage tank (205) are installed to the diapire of storage tank (201), and storage tank (205) are located one side of baffle (202), servo motor (206) are installed to the diapire of storage tank (205), puddler (207) are installed to the output of servo motor (206), the top of storage tank (201) runs through and is provided with spout (204), and spout (204) are located the opposite side of baffle (202), infusion steel pipe is installed to the output of water pump (203), and infusion steel pipe is located the inboard of spout (204), nozzle (208) are installed to the one end of infusion steel pipe, and nozzle (208) are located the inside of storage tank (201), one side outer wall edge of nozzle (208) is provided with the orifice.

The inside of the dust remover main body (1) is provided with an active carbon fiber board (3) which is arranged up and down, one side outer wall of the dust remover main body (1) is provided with a slot (305) in a penetrating way, the inside of the slot (305) is provided with a sealing block (301) in a sliding way, one side outer wall of the sealing block (301) is provided with a rubber baffle (302), one side outer wall of the rubber baffle (302) is attached to one side outer wall of the dust remover main body (1), the size of the rubber baffle (302) is larger than that of the sealing block (301), the other side of the sealing block (301) is provided with a groove, a filtering baffle (303) is embedded in the groove, the filtering baffle (303) is positioned in the dust remover main body (1), one side outer wall of the filtering baffle (303) is provided with an inserting block, one side inner wall of the inserting block is provided with an inserting hole, the inner surface of the inserting hole is attached to the outer surface of the dust suppression plate (304) is arranged at the bottom of the filtering baffle (303), and the two side outer walls of the dust suppression plate (304) are attached to the other side outer wall of the sealing block (301) and one side inner wall of the dust remover main body (1) respectively;

the front surface of the dust remover main body (1) is provided with a second notch (6) in a penetrating way, the inside of the second notch (6) is embedded with a connecting plate (601), the back surface of the connecting plate (601) is provided with a screen plate (603) which is arranged up and down, the two screen plates (603) are all positioned in the middle of the two groups of activated carbon fiber boards (3), three groups of stop rods (606) which are arranged at equal intervals in front and back are respectively arranged on the surfaces of the two groups of screen plates (603) which are close to each other, the surfaces of the upper group of stop rods (606) and the lower group of stop rods (606) are respectively sleeved with a first filter cylinder (607), the top of the first filter cylinder (607) is attached to the bottom of the upper screen plate (603), the outer surface of the first filter cylinder (607) is provided with a bamboo charcoal fiber layer (608), the outer surface of the bamboo charcoal fiber layer (608) is provided with a first silicone resin layer (609), the front surface of the dust remover main body (1) is provided with a storage ring seat (602) which is arranged up and down, the two groups of storage ring seats (602) are respectively positioned above and below the second notch (6), the top and the bottom of the two groups of stop rods (606) are respectively provided with a connecting piece (605), and the two groups of connection pieces (605) are respectively embedded with the two groups of projections (605);

the inside slidable mounting of first connecting pipe (2) has baffle (4), and one side outer wall of baffle (4) installs push rod (401), and push rod (401) are "L" font, and push rod (401) are located the side top of infusion steel pipe, and dog (402) are installed on the top of push rod (401), and the bottom of dog (402) is laminated mutually with the top of storage tank (201), and dog (402) are located one side of infusion steel pipe, and nozzle (208) are located one side of baffle (4).

2. A dust removing apparatus having a dust suppressing structure as set forth in claim 1, wherein: the dust collector comprises a dust collector body (1), wherein a dust discharging pipe is arranged at the bottom of the dust collector body (1), a storage groove is formed in the outer wall of the other side of the dust collector body (1) in a penetrating mode, a storage plate (5) is arranged in the storage groove in a sliding mode, wet dust collection cloth is arranged at the top and the bottom of the storage plate (5), a storage barrel (501) is arranged on the outer surface of the dust discharging pipe in a mounting mode, a first notch is formed in the outer surface of the storage barrel (501) in a penetrating mode, and a storage frame (502) is arranged in the first notch in a sliding mode.

3. A dust removing apparatus having a dust suppressing structure as set forth in claim 1, wherein: the second filter cylinder (7) is embedded and installed on the outer surface of the middle group of stop rods (606), the top of the second filter cylinder (7) is attached to the bottom of the upper screen plate (603), the electrostatic adsorption layer (701) is installed on the outer surface of the second filter cylinder (7), the second silicone resin layer (702) is installed on the outer surface of the electrostatic adsorption layer (701), and the second silicone resin layer (702) is located in the middle of the two groups of first silicone resin layers (609).

4. A dust removing apparatus having a dust suppressing structure as set forth in claim 1, wherein: the second connecting pipe (8) is installed to one side outer wall of dust shaker main part (1), and second connecting pipe (8) are located the below of rubber baffle (302), and electromagnetic pulse valve (801) are installed to one end of second connecting pipe (8), and air pocket (802) are installed to the input of electromagnetic pulse valve (801), and jetting pipe (803) are installed to the output of electromagnetic pulse valve (801), and jetting pipe (803) are located the centre of top active carbon fiber board (3) and dust suppression board (304).

5. A dust removing apparatus having a dust suppressing structure as set forth in claim 1, wherein: the dust collector is characterized in that a dust inlet pipe (101) is arranged on the outer wall of the other side of the dust collector body (1), the dust inlet pipe (101) is located above the storage groove, an exhaust pipe (102) is arranged on the outer wall of the other side of the dust collector body (1), and the exhaust pipe (102) is located above the dust inlet pipe (101).

6. A dust removing apparatus having a dust suppressing structure as set forth in claim 1, wherein: a controller (9) is mounted on the outer wall of one side of the dust remover main body (1), the controller (9) is electrically connected with the electromagnetic pulse valve (801), the controller (9) is located above the first connecting pipe (2), and the controller (9) is located below the air bag (802).

7. A dust removing apparatus having a dust suppressing structure as set forth in any one of claims 1 to 6, characterized in that the dust removing apparatus has the steps of:

s1, firstly pouring a biological nano film preparation and water into a storage box (201), starting a servo motor (206) in a storage box (205) to enable the biological nano film preparation and the water to rotate, further enabling the biological nano film preparation and the water to be uniformly mixed, sucking dust into the interior of a dust remover main body (1) through a dust inlet pipe (101), simultaneously starting a water pump (203) to enable the biological nano film preparation and the water which are uniformly stirred in the storage box (201) to be conveyed into the interior of an infusion steel pipe, pushing a stop block (402) in a chute (204), enabling the stop block (4) to be driven to move into the interior of the dust remover main body (1) under the action of a push rod (401), then enabling the biological nano film in the infusion steel pipe to be sprayed into the interior of the dust remover main body (1), enabling the biological nano film to collide with dust entering into the dust inlet pipe (101) at the moment, thereby achieving the purposes of sucking and agglomerating the dust to form large granular dust particles, and enabling the dust to fall into the interior of the storage box (502) through a dust discharge pipe under the action of gravity to a certain extent, and further playing a role in suppressing dust effect;

s2, enabling the residual dust floating in the dust remover main body (1) to move to the upper side of the dust remover main body (1), enabling part of the dust to enter the first filter cylinder (607) and the second filter cylinder (7) through the screen plate (603) after being adsorbed and filtered by the lower activated carbon fiber board (3), enabling the dust to be secondarily adsorbed and filtered by the inner bamboo carbon fiber layer (608) and the electrostatic adsorption layer (701) and then to the inner part of the upper activated carbon fiber board (3), and finally discharging clean air from the exhaust pipe (102);

s3, inserting a filtering baffle (303) into a groove on one side of a sealing block (301), and plugging the sealing block (301) into the slot (305) until the outer wall of one side of a rubber baffle (302) is attached to the outer wall of one side of a dust remover main body (1), at the moment, the inserting block on the filtering baffle (303) is embedded with an inserting hole on the inner wall of one side of the dust remover main body (1), and then starting an electromagnetic pulse valve (801) to enable gas in a gas bag (802) to be blown into the dust remover main body (1) through a blowing pipe (803), so that dust which is sticky and adsorbed on an activated carbon fiber board (3), a first filter cylinder (607) and a second filter cylinder (7) can be blown and shaken off, and the dust is collected into a storage frame (502);

s4, the connecting plate (601) is pulled, so that the lug (605) on the back of the connecting piece (604) can be driven to be not embedded with the storage ring seat (602), then the screen plate (603) can be taken out of the dust remover main body (1), and then the first filter cylinder (607) and the second filter cylinder (7) on the stop lever (606) can be replaced, so that the dust removing effect of the dust remover can be improved to a certain extent.