CN117379901A - Energy-saving efficient dust removal tower with filtering and precipitating functions - Google Patents

Abstract

The invention relates to the technical field related to dust removal tower equipment, and discloses an energy-saving efficient dust removal tower with a filtering and precipitating function, which comprises a dust removal tower body and a precipitating and filtering mechanism, wherein a gas treatment cavity is arranged in the dust removal tower body, a gas output port is arranged at the top of the gas treatment cavity, a gas input port is arranged on the outer wall of the gas treatment cavity close to the lower side, a spraying and dedusting assembly is fixedly arranged in an array in the gas treatment cavity, a water storage tank is arranged on the side wall of the bottom of the dust removal tower body, the water storage tank is communicated with the gas treatment cavity, a purifying output end pipe is arranged on the outer wall of the water storage tank, and a purifying back suction end pipe is arranged on the outer wall of the water storage tank; the filtering and precipitating functional structure in the energy-saving efficient dedusting tower with the filtering and precipitating function not only can realize the water circulating sedimentation filtering treatment to ensure that the problem of overhigh dust density in water is avoided, but also can avoid the problems that the water flow is influenced and the blockage is caused due to the gradual increase of the amount of dust and impurities intercepted by filtering.

Description

Energy-saving efficient dust removal tower with filtering and precipitating functions

Technical Field

The invention relates to the technical field related to dust removal tower equipment, in particular to an energy-saving efficient dust removal tower with a filtering and precipitating function.

Background

The principle of the dust removing tower is that a large amount of surface area and contact time of fillers in the tower are utilized to enable the particles in the waste gas to have the functions of impact, adhesion, collision, dispersion and the like when contacting with the fillers, and the dust removing tower is matched with the internal water mist circulating spraying effect to realize the function of quickly settling and removing dust and impurities in the input gas.

The existing dust removal towers can cause the situation that the dust density in water is too high after being used for a period of time, and most enterprises use the water to change the sewage discharge into fresh water, so that the sewage treatment problem and the water resource mass use problem can occur, the phenomenon that the dust removal standard does not reach the standard easily occurs when the dust density in water is too high, and the water resource recycling, the sewage direct treatment and the sewage dust sediment secondary income can be realized by the filtering sedimentation tank.

Disclosure of Invention

The invention aims to provide an energy-saving high-efficiency dust removal tower with a filtering and precipitating function, which is used for overcoming the defects in the prior art.

The invention is realized by the following technical scheme.

The invention relates to an energy-saving efficient dedusting tower with a filtering and precipitating function, which comprises a dedusting tower body and a precipitating and filtering mechanism, wherein a gas treatment cavity is arranged in the dedusting tower body, a gas output port is arranged at the top of the gas treatment cavity, a gas input port is arranged on the outer wall of the gas treatment cavity near the lower side, a spraying dedusting assembly is fixedly arranged in the gas treatment cavity in an array manner, a water storage tank is arranged on the side wall of the bottom of the dedusting tower body, the water storage tank is communicated with the gas treatment cavity, a purifying output end pipe is arranged on the outer wall of the water storage tank, a purifying and back-pumping end pipe is arranged on the outer wall of the water storage tank, the precipitating and filtering mechanism comprises an equipment bottom plate, a precipitating and filtering tank is fixedly arranged on the upper side of the equipment bottom plate, a maintenance treatment box is arranged on the outer wall of the side of the precipitating and filtering cavity is arranged in the precipitating and filtering tank, the side wall of the upper side of the sedimentation filter cavity is provided with a water input port and is communicated with the purification output end pipe through a pipe body, the side wall of the lower side of the sedimentation filter cavity is provided with a water output port and is communicated with the purification back-suction end pipe through a pipe body, three groups of interception filter mechanisms are arranged in the sedimentation filter cavity in a sliding manner in a vertical array manner, the three groups of interception filter mechanisms are arranged in the space position between the water input port and the water output port in a positioning state and comprise filter layer carrying frames, the filter layer carrying frames are rotatably provided with filter interception frames in an array manner, filter gauze layers are fixedly arranged in the filter interception frames, a maintenance processing cavity is arranged in the maintenance processing cavity, a function carrying box body is slidably arranged in the maintenance processing cavity, an embedded carrying plate body is arranged on the side of the function carrying box body and is fixedly provided with the filter layer carrying frames, the device is characterized in that an array is arranged in the side wall of the maintenance processing cavity, a vibrating functional groove is arranged in the vibrating functional groove, a vibrating knocking plate capable of vibrating the filter layer carrying frame in a collision mode is slidably arranged in the vibrating functional groove, a sedimentation collecting box is slidably arranged at the bottom of the maintenance processing cavity, an upward filtering collecting inner box is slidably arranged in the sedimentation collecting box, and the filtering collecting inner box is slidably arranged to the bottom of the intercepting filter mechanism, which is arranged at the lowest side in the sedimentation filter cavity in a bonding mode.

Further technical scheme, maintenance processing case avris is equipped with function and carries on the portion, be equipped with indent cooperation groove on the function carries on the portion inner wall, be equipped with the transmission in the function carries on the portion and carry on the chamber, the transmission carries on the bottom of the chamber and inlays fixed mounting and have driving motor, the transmission shaft is installed to the driving motor output, transmission shaft array fixed mounting has the transmission helical gear, function carries on the portion inner wall and is equipped with the lapse driving chamber, lapse driving intracavity fixed mounting has the lapse driving motor.

Further technical scheme, function carries on box both sides outer wall symmetry fixed mounting has the end piece that slides, is located the rear side be equipped with in the end piece that slides and rock logical groove, it is equipped with the screw thread sliding sleeve to rock logical inslot mounting, screw thread sliding sleeve outer wall symmetry is equipped with the slip support column, it is equipped with the spout that rocks to rock logical inslot wall symmetry, it has to rock to slide in the spout sliding mounting the slip support column and the cooperation is provided with and rocks reset spring, it is equipped with two sets of transmission grooves to maintain the both sides inner wall symmetry around the processing chamber, slide the end piece slide set up in corresponding in the transmission inslot that slides, be located the rear side slide the transmission groove internal rotation and install the drive screw that slides, slide the drive screw with screw thread sliding sleeve threaded connection, slide the drive screw rear side end is arranged in the transmission carries on the intracavity, slide drive screw end installs cooperation helical gear and with corresponding drive helical gear meshing is connected.

Further technical scheme, it is equipped with and passes the drive groove to maintain to handle case rear side inner wall, pass the drive motor output and install and pass the drive screw, pass the drive screw rotate set up in pass the drive inslot, pass drive screw threaded connection install two sets of pass screw thread slide barrels, pass the screw thread slide barrel slide set up in pass the drive inslot, pass screw thread slide barrel threaded connection in pass the drive screw, deposit collecting box rear side inner wall is equipped with and collects the drive spout, collect the drive spout with pass the drive groove and correspond the intercommunication, it installs to filter collecting the inner box rear side outer wall and collect the drive slide, collect the drive slide set up in collect in the drive spout, collect the drive slide rear side be equipped with pass the drive baffle, pass the drive baffle arrange in pass in the drive inslot and between two sets of pass the screw thread slide barrels, deposit collecting box right side wall is equipped with the inner box slide through the groove, it is equipped with the stretch notch to maintain the outer wall of the processing box, the stretch notch with maintain the pull chamber intercommunication, deposit collecting box rear side wall is equipped with through the collecting chamber inner wall and maintain the handle.

Further technical scheme, deposit filter chamber avris inner wall and be equipped with and inlay and seal the slip and lead to the groove, deposit filter chamber downside position avris inner wall and be equipped with the slip and lead to the groove, slip lead to the groove with the corresponding intercommunication of inner box slip leads to the groove and can supply the filtration collection inner box passes, deposit filter chamber bottom inner wall is equipped with the diapire spout, install the baffle slider in the diapire spout, the baffle slider with install the reset long spring between the diapire spout inner wall, sealing baffle is installed to the baffle slider upside, sealing baffle can cooperate the inboard cushion laminating to seal the slip leads to the groove.

Further technical scheme, three groups the filter layer carries on frame avris outer wall common fixed mounting has fixed end plate, inlay seal the slip through groove fixed end plate with inlay and carry the plate body size unanimity, filter layer carries on frame inner wall array and is equipped with pivot bearing groove, filter interception frame outer wall bilateral symmetry is equipped with the framework dead axle, filter interception frame be located the right side the rotation of framework dead axle sets up in corresponding pivot bearing groove, inlay and carry plate body inner wall array and be equipped with the through groove of upset axle, the through inslot rotation of upset axle is installed the upset pivot, filter interception frame be located the left side the framework dead axle passes through axle sleeve mounting and corresponds upset pivot fixed connection.

Further technical scheme, function carries on the inner wall of box and is equipped with upset band pulley chamber, upset band pulley chamber avris inner wall is equipped with upset transmission chamber, the upset pivot passes the upset axle leads to the groove and arranges in the upset band pulley intracavity, upset axle leads to the terminal fixed mounting of groove has the upset belt pulley, each through upset belt drive between the upset belt pulley, each group of rearmost upset belt pulley outer wall fixed mounting has a drive pulley, pass through the drive belt drive between the drive pulley, upset drive motor is installed to upset drive intracavity, upset drive shaft is installed to upset drive motor output, upset drive shaft fixed connection in the uppermost the drive pulley outer wall.

Further technical scheme, it is equipped with vibration transmission chamber to maintain the processing incasement wall, vibrate the transmission chamber with each vibrate function groove intercommunication, vibrate function groove position height with corresponding the filter layer carries on the frame position correspondence, vibrate transmission intracavity fixed mounting and have the transmission electro-magnet, vibrate the transmission intracavity sliding mounting and have the permanent magnetism slide, the permanent magnetism slide with vibrate and install the spring between the transmission intracavity wall, permanent magnetism slide outer wall array fixed mounting has vibration installation slide, vibrate the installation slide with correspond vibrate and strike board fixed connection, the filter layer carries on the frame outer wall correspondence and is equipped with vibration cooperation portion.

Further technical scheme, spray dust removal subassembly including fixed set up in carry on the otter board of gas treatment intracavity wall, carry on otter board bottom fixed mounting and have the shower, the shower array is equipped with the spraying port, carry on the otter board top and be provided with the absorption filler, gas treatment intracavity lateral wall array is equipped with intercommunication end hole and fixed mounting have and spray communicating pipe, spray communicating pipe with corresponding the shower intercommunication.

Further technical scheme, be equipped with the water cavity in the tank, the water cavity in the tank with gaseous processing intracavity intercommunication, be equipped with purification output water pump, purification back suction pump and spray output water pump in the tank, purification output water pump output with purification output end pipe intercommunication, purification output water pump back suction end communicate in the tank water cavity, purification back suction pump back suction port communicate in purification back suction end pipe, purification back suction pump output port communicate in the tank water cavity, the tank top is equipped with the spray conveyer pipe, the spray conveyer pipe passes through many communication valve pipes with each spray communicating pipe bottom intercommunication, spray output water pump output end with spray conveyer pipe intercommunication, spray output water pump back suction end with water cavity intercommunication in the tank, the outer wall array of the dust removal tower body is equipped with the observation window, the observation window is used for observing inside dust removal processing condition.

The invention has the beneficial effects that:

the energy-saving efficient dedusting tower with the filtering and precipitating function is provided with the filtering and precipitating function structure, and through the arrangement of the precipitating and filtering mechanism connected with the dedusting tower body, the multi-level filtering and intercepting effect on dust in the water body can be realized through the combined action of the purifying output water pump and the purifying and back-pumping water pump in the water cavity communicated with the gas treatment cavity in the water storage tank, and the waste water is output into the precipitating and filtering cavity through the purifying output end pipe and the back-pumping end pipe and flows back into the water cavity in the water storage tank, so that the filtering and precipitating effects of the water body in the tower and the water storage tank are realized, when the waste water circularly flows into the precipitating and filtering cavity, the water body flows into the precipitating and filtering cavity through the water body input port, the three-layer intercepting and filtering mechanism is formed by the filtering gauze layers fixed by the filtering and intercepting frames in the filtering layer carrying frames, so that dust in the water body is reserved in the precipitating and filtering cavity, and finally the water body flows back into the water cavity in the tower through the water body output port, so that the water body flows back to the water cavity in the water storage tank, the water body is prevented from reaching the standard, and the water body is not up to the standard, and the water body can be discharged, and the novel efficient and circulated and used, and the water body can be realized;

in the invention, three groups of interception filter mechanisms are used for carrying out three layers of filtration interception effects on the water flowing into the water, each layer is composed of a filter layer carrying frame and a filter interception frame internally capable of axially rotating along the end shaft of the frame body, a filter gauze layer is fixedly arranged in the filter interception frame to realize the filtration interception effect on dust impurities in the water, the filter layer is composed of a plurality of groups of filter interception frames matched with the filter gauze layer, and compared with a conventional filter structure, the problems of influencing the water flow and causing blockage caused by gradually increasing the amount of the filtered and intercepted dust impurities can be realized by the whole fixed arrangement of the filter layer, in the process of filtering and precipitating, the conventional filtering structure gradually reduces the flow of dust and impurities intercepted along with the filtration, when the flow rate of the water body is reduced through the flow detection of the pump body, the pump body can be stopped briefly and the water body in the precipitating filter cavity is completely pumped back, then the filtering structure can be started by a pushing transmission motor to drive a pushing transmission screw rod to rotate, so that a pushing thread sliding cylinder slides and pushes a pushing transmission baffle plate to enable a filtering and collecting inner box to slide, the filtering and collecting inner box passes through an inner box sliding through groove and pushes a sealing baffle plate, the filtering and collecting inner box is attached to the bottom of a filter layer carrying frame arranged at the lowest side, the filtering and collecting inner box is started by a turnover transmission motor to drive a turnover transmission shaft to rotate, and each group of turnover belt pulleys are driven to rotate for half a week by belt transmission, the turnover rotating shaft drives each filtering and intercepting frame to rotate for half a cycle, so that turnover operation is completed, dust and impurities drop downwards into the filtering and collecting inner box, and then the filtering and collecting inner box resets the pump body to continue to operate, so that the problems that the water flow is influenced and the blockage is caused due to the fact that the quantity of the filtering and intercepting dust and impurities is gradually increased along with the operation of equipment are solved;

the structure of the invention also has a self-maintenance treatment function, the filtration and sedimentation function in the energy-saving efficient dedusting tower with the filtration and sedimentation function can be realized by the filtration and collection inner box being matched with each group of filtration and interception frame to turn over, so that the problem of blockage and flow influence can be avoided in the process of realizing the filtration and collection inner box, after the operation is finished, the transmission motor is started to drive the transmission shaft and the transmission bevel gear to rotate, so that the matched bevel gear and the sliding transmission screw rotate, the function carrying box body is dragged by the threaded sliding sleeve, the carrying plate body is embedded and each group of interception and filtration mechanisms are pulled back into a maintenance treatment cavity, the turnover transmission motor is started to drive the turnover transmission shaft to rotate, the belt is used for driving each group of turnover belt pulleys to rotate continuously, the filtration and interception frame is driven by the turnover rotating shaft to rotate, so that dust and impurities intercepted by the filtration and interception layer drop into the filtration and collection inner box, and in the process, the transmission electromagnet is intermittently opened and closed, the vibration installation sliding plate is driven by the permanent magnet sliding plate to reciprocate, so that the vibration striking plate can realize the collision to the side wall of the filtration layer frame, the filtration and interception frame is pulled by the threaded sliding sleeve, the turnover and interception frame is started, the filtration and sedimentation treatment efficiency is reduced, the cost is reduced, the personnel can be regularly and the cost is reduced, and the filtration and sedimentation treatment device is finished.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained from these drawings without inventive effort for a person skilled in the art.

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic front view of the dust removing tower 11 according to the present invention;

fig. 3 is a schematic top view of the dust removing tower 11 according to the present invention;

FIG. 4 is a schematic sectional view of the dust removing tower 11 of the present invention;

FIG. 5 is a schematic elevational view of the sediment filter mechanism 20 of the present invention;

FIG. 6 is a schematic cross-sectional view of the sediment filter mechanism 20 of the present invention;

fig. 7 is a schematic view showing a structure of the function mounting case 50 in a disassembled state in the present invention;

fig. 8 is a schematic top sectional view of the functional mounting case 50 according to the present invention;

FIG. 9 is a schematic top sectional view showing the installation state of the sedimentation tank 35 in the present invention;

FIG. 10 is an enlarged schematic view of the structure of FIG. 8A in accordance with the present invention;

fig. 11 is a schematic top sectional view showing an installation state of the vibrating striking plate 54 according to the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-11, wherein for convenience of description, the orientations described below are now defined as follows: the vertical, horizontal, front-rear directions described below are identical to the vertical, horizontal, front-rear directions of the projection relationship of fig. 1 itself.

The energy-saving efficient dust removal tower with the filtering and precipitating functions comprises a dust removal tower body 11 and a precipitating and filtering mechanism 20, wherein a gas treatment cavity 22 is arranged in the dust removal tower body 11, a gas output port 12 is arranged at the top of the gas treatment cavity 22, a gas input port 14 is arranged on the outer wall of the position, close to the lower side, of the gas treatment cavity 22, a spray dust removal assembly 25 is fixedly arranged in an array manner in the gas treatment cavity 22, a water storage tank 15 is arranged on the side wall of the bottom of the dust removal tower body 11, the water storage tank 15 is communicated with the gas treatment cavity 22, a purifying output end pipe 19 is arranged on the outer wall of the water storage tank 15, a purifying and back-pumping end pipe 21 is arranged on the outer wall of the water storage tank 15, the precipitating and filtering mechanism 20 comprises an equipment bottom plate 30, a precipitating and filtering tank 31 is fixedly arranged on the upper side of the equipment bottom plate 30, a maintenance treatment box 32 is arranged on the outer wall of the side of the precipitating and filtering cavity 40 is arranged in the precipitating and filtering tank 31, the side wall of the upper side of the sedimentation filter cavity 40 is provided with a water body input port 41 and is communicated with the purifying output end pipe 19 through a pipe body, the side wall of the lower side of the sedimentation filter cavity 40 is provided with a water body output port 42 and is communicated with the purifying back end pipe 21 through a pipe body, three groups of interception filter mechanisms 45 are arranged in the vertical array in the sedimentation filter cavity 40 in a sliding manner, the three groups of interception filter mechanisms 45 are arranged in the space position between the water body input port 41 and the water body output port 42 in a positioning state, the interception filter mechanisms 45 comprise a filter layer carrying frame 70, a filter interception frame 73 is rotatably arranged in the array in the filter layer carrying frame 70, a filter gauze layer 74 is fixedly arranged in the filter interception frame 73, a maintenance processing cavity 52 is arranged in the maintenance processing box 32, a function carrying box 50 is slidably arranged in the maintenance processing cavity 52, an embedded carrying plate 51 is arranged on the side of the function carrying box 50 and is fixedly provided with the filter layer carrying frame 70, the side wall of the maintenance processing cavity 52 is internally provided with an oscillation functional groove 53, an oscillation knocking plate 54 which can collide and oscillate to the filter layer carrying frame 70 is slidably arranged in the oscillation functional groove 53, the bottom of the maintenance processing cavity 52 is slidably provided with a sediment collecting box 35, the inner filtering and collecting box 37 with an upward opening is slidably arranged in the sediment collecting box 35, and the inner filtering and collecting box 37 can be slidably arranged to the bottom of the intercepting and filtering mechanism 45 which is arranged at the lowest side in the sediment filtering cavity 40 in an attached mode.

Preferably, the side of the maintenance processing box 32 is provided with a function carrying part 33, an inner concave matching groove 57 is arranged on the inner wall of the function carrying part 33, a transmission carrying cavity 58 is arranged in the function carrying part 33, a transmission motor 60 is embedded and fixedly installed at the bottom of the transmission carrying cavity 58, a transmission shaft 59 is installed at the output end of the transmission motor 60, a transmission bevel gear 61 is fixedly installed at the array of the transmission shafts 59, a pushing transmission cavity 63 is arranged on the inner wall of the function carrying part 33, and a pushing transmission motor 64 is fixedly installed in the pushing transmission cavity 63.

Preferably, the outer walls of the two sides of the function carrying box 50 are symmetrically and fixedly provided with sliding end blocks 76, the sliding end blocks 76 positioned at the rear side are internally provided with shaking through grooves 77, threaded sliding sleeves 78 are arranged in the shaking through grooves 77, the outer walls of the threaded sliding sleeves 78 are symmetrically provided with sliding supporting columns 80, the inner walls of the shaking through grooves 77 are symmetrically provided with shaking sliding grooves 79, the sliding supporting columns 80 are slidably mounted in the shaking sliding grooves 79 and are matched with shaking return springs 81, the front and rear inner walls of the maintenance processing cavity 52 are symmetrically provided with two groups of sliding transmission grooves 55, the sliding end blocks 76 are slidably arranged in the corresponding sliding transmission grooves 55, sliding transmission screws 56 are rotatably mounted in the sliding transmission grooves 55 positioned at the rear side, the sliding transmission screws 56 are in threaded connection with the threaded sliding sleeves 78, the rear ends of the sliding transmission screws 56 are arranged in the transmission carrying cavity 58, and the tail ends of the sliding transmission screws 56 are provided with matched bevel gears 62 and are in meshed connection with the corresponding transmission bevel gears 61.

Preferably, a pushing transmission groove 65 is formed in the inner wall of the rear side of the maintenance treatment box 32, a pushing transmission screw 66 is installed at the output end of the pushing transmission motor 64, the pushing transmission screw 66 is rotatably arranged in the pushing transmission groove 65, two groups of pushing thread sliding drums 96 are installed in the pushing transmission screw 66 in a threaded connection mode, the pushing thread sliding drums 96 are slidably arranged in the pushing transmission groove 65, the pushing thread sliding drums 96 are threadably connected with the pushing transmission screw 66, a collecting transmission sliding groove 93 is formed in the inner wall of the rear side of the sedimentation collection box 35, the collecting transmission sliding groove 93 is correspondingly communicated with the pushing transmission groove 65, a collecting transmission sliding plate 94 is installed on the outer wall of the rear side of the filtering collecting inner box 37, the collecting transmission sliding plate 94 is slidably arranged in the collecting transmission sliding groove 93, a pushing transmission baffle 95 is arranged on the rear side of the collecting transmission sliding plate 94, the pushing transmission baffle 95 is arranged in the pushing transmission groove 65 and between the pushing thread sliding drums 96, an inner box sliding through groove 97 is formed in the right side of the sedimentation collection box 35, a drawing groove opening 34 is formed in the outer wall of the maintenance treatment box 32, the drawing groove 34 is communicated with the maintenance treatment cavity 52, the sedimentation collection box 35 is slidably arranged in the maintenance treatment cavity 52, the collecting box 35 is slidably arranged in the maintenance treatment cavity 52 through the drawing groove opening 34, and the handle is provided with the collecting handle.

Preferably, the inner wall of the side of the sedimentation filter cavity 40 is provided with an embedded sliding through groove 49, the inner wall of the side of the lower side of the sedimentation filter cavity 40 is provided with a sliding through groove 46, the sliding through groove 46 is correspondingly communicated with the inner box sliding through groove 97 and can be used for the filtration and collection of the inner box 37 to pass through, the inner wall of the bottom of the sedimentation filter cavity 40 is provided with a bottom wall sliding groove 43, a baffle sliding block 48 is slidably installed in the bottom wall sliding groove 43, a reset long spring 44 is installed between the baffle sliding block 48 and the inner wall of the bottom wall sliding groove 43, a sealing baffle 47 is installed on the upper side of the baffle sliding block 48, and the sealing baffle 47 can be matched with the inner rubber pad to be attached to the sealing sliding through groove 46.

Preferably, the side outer walls of the three groups of filter layer carrying frames 70 are fixedly provided with fixed end plates 98 together, the embedding sliding through grooves 49, the fixed end plates 98 and the embedding carrying plate bodies 51 are identical in size, the inner wall array of the filter layer carrying frames 70 is provided with rotating shaft bearing grooves 72, two sides of the outer wall of the filter intercepting frame 73 are symmetrically provided with frame body end shafts 90, the right side frame body end shafts 90 of the filter intercepting frame 73 are rotatably arranged in the corresponding rotating shaft bearing grooves 72, the inner wall array of the embedding carrying plate bodies 51 is provided with rotating shaft through grooves 92, the rotating shaft 91 is rotatably arranged in the rotating shaft through grooves 92, and the left side frame body end shafts 90 of the filter intercepting frame 73 are fixedly connected with the corresponding rotating shaft 91 through shaft sleeve fixing pieces.

Preferably, the inner wall of the function carrying box 50 is provided with a turnover belt wheel cavity 85, the inner wall of the side of the turnover belt wheel cavity 85 is provided with a turnover transmission cavity 82, a turnover rotating shaft 91 penetrates through a turnover shaft through groove 92 and is arranged in the turnover belt wheel cavity 85, a turnover belt wheel 86 is fixedly arranged at the tail end of the turnover shaft through groove 92, each turnover belt wheel 86 is transmitted by a turnover belt 87, the outer walls of the turnover belt wheels 86 of the rearmost groups are fixedly provided with transmission belt wheels 88, the transmission belt wheels 88 are transmitted by a transmission belt 89, a turnover transmission motor 83 is arranged in the turnover transmission cavity 82, a turnover transmission shaft 84 is arranged at the output end of the turnover transmission motor 83, and the turnover transmission shaft 84 is fixedly connected to the outer wall of the uppermost transmission belt wheel 88.

Preferably, the inner wall of the maintenance processing box 32 is provided with a vibration transmission cavity 67, the vibration transmission cavity 67 is communicated with each vibration functional groove 53, the position height of the vibration functional groove 53 corresponds to the position of the corresponding filter layer carrying frame 70, a transmission electromagnet 68 is fixedly installed in the vibration transmission cavity 67, a permanent magnet slide plate 69 is installed in the vibration transmission cavity 67 in a sliding mode, a spring is installed between the permanent magnet slide plate 69 and the inner wall of the vibration transmission cavity 67, an vibration installation slide plate 99 is fixedly installed on the outer wall array of the permanent magnet slide plate 69, the vibration installation slide plate 99 is fixedly connected with the corresponding vibration knocking plate 54, and a vibration matching part 75 is correspondingly arranged on the outer wall of the filter layer carrying frame 70.

Preferably, the spray dust removal assembly 25 comprises a carrying screen 26 fixedly arranged on the inner wall of the gas treatment cavity 22, a spray pipe 28 is fixedly arranged at the bottom of the carrying screen 26, a spray port 29 is arranged on the spray pipe 28 array, an absorption filler 27 is arranged at the top of the carrying screen 26, a communication end hole 18 is arranged on the outer side wall array of the gas treatment cavity 22 and is fixedly provided with a spray communicating pipe 17, and the spray communicating pipe 17 is communicated with the corresponding spray pipe 28.

Preferably, a water cavity is arranged in the water storage tank 15, the water cavity in the water storage tank 15 is communicated with the inside of the gas treatment cavity 22, a purification output water pump, a purification return water pump and a spray output water pump are arranged in the water storage tank 15, the output end of the purification output water pump is communicated with a purification output end pipe 19, the return end of the purification output water pump is communicated with the water cavity in the water storage tank 15, the return end of the purification return water pump is communicated with a purification return end pipe 21, the output end of the purification return water pump is communicated with the water cavity in the water storage tank 15, the top of the water storage tank 15 is provided with a spray conveying pipe 16, the spray conveying pipe 16 is communicated with the bottoms of the spray communicating pipes 17 through a plurality of communicating valve pipes, the output end of the spray output water pump is communicated with the spray conveying pipe 16, the return end of the spray output water pump is communicated with the water cavity in the water storage tank 15, an observation window 13 is arranged on the outer wall array of the dust removal tower 11, and the observation window 13 is used for observing the internal dust removal treatment condition.

The specific application method of the invention comprises the following steps:

when the device is used, the top of the gas output port 12 is communicated with the gas input port 14 through the ash inlet pipe, the top of the gas output port 12 is communicated with the discharge pipe and is enabled to input industrial waste gas containing dust impurities through the gas input port 14 under the action of the blower, the industrial waste gas is output through the gas output port 12 under the action of the input gas pushing and the blower, the industrial waste gas passes through each group of carrying net plates 26 in the process and is sprayed downwards through each group of spraying ports 29 under the action of a spraying output water pump in the water storage tank 15, so that the waste gas flowing upwards is sprayed and is enabled to be enabled to settle along with water to flow to the bottom of the gas treatment cavity 22 under the filtering and settling effects of the absorption filler 27, and the water body is repeatedly utilized and recycled through the spraying water pump in the water storage tank 15 to carry out spraying work in a reciprocating cycle;

the energy-saving efficient dedusting tower with the filtering and precipitating function is provided with the filtering and precipitating function structure, the sedimentation filtering mechanism 20 connected with the dedusting tower body 11 is arranged, the effect that the filtering layer is formed by the filtering yarn 74 fixed by each group of filtering and intercepting frames 73 in the filtering layer carrying frame 70 through the combined action of the purifying and outputting water pump in the water cavity communicated with the water storage tank 15 and the gas treatment cavity 22 is output into the sedimentation filtering cavity 40 through the purifying and outputting end pipe 19, and the water cavity in the water storage tank 15 is backwashed by the water output port 42 and the purifying and precipitating end pipe 21, so that the filtering and precipitating effects of the water bodies in the tower and the water storage tank 15 are realized, when circulating in the sedimentation filtering cavity 40, the water body flows into the sedimentation filtering cavity 40 through the water input port 41, the three-layer intercepting and filtering mechanism 45 forms a sedimentation filtering layer by the filtering cloth layers 74 fixed by each group of filtering and intercepting frames 73 in the filtering layer carrying frame 70, the dust in the water body is realized in a multi-level filtering and intercepting effect, the water body is reserved in the sedimentation filtering cavity 40, the water body is finally filtered by the water body output port 42 and the water cavity in the water body 15, the water body is backwashed by the water body, the water body and the water body in the water storage tank 15 is discharged along with the circulating water circulation to reach the high water quality standard, the problem that the water quality is not required to reach the high-quality and the effect of achieving the high-quality water quality of the effect of the water quality of the dust removal effect when the water is discharged and has reached when the high quality effect is used by the water quality and has high quality effect and has high efficiency effect;

in the invention, three groups of interception filter mechanisms 45 are used for carrying out three layers of interception filter effects on the water flowing into the energy-saving efficient dedusting tower, each layer consists of a filter layer carrying frame 70 and a filter interception frame 73 which can axially rotate along a frame end shaft 90, a filter gauze layer 74 is fixedly arranged in the filter interception frame 73 to realize the effect of completing the interception of dust impurities in water flow, the filter layer consists of a plurality of groups of filter interception frames 73 matched with the filter gauze layer 74, the problems that the water flow is affected and the blockage is caused because the dust and impurity intercepted by filtration is gradually increased in comparison with the conventional filtering structure can be realized by the whole fixed type filtering structure, the flow of the dust and impurities intercepted by filtration is gradually reduced in the filtering and precipitating process, in the conventional filtering structure, when the flow rate of the water flow is detected to be reduced by the detection of the pump body flow, the pump body can be stopped briefly firstly and the water in the precipitation filter cavity 40 is completely pumped back, then the water can be started by the pushing transmission motor 64 to drive the pushing transmission screw 66 to rotate, so that the pushing thread sliding cylinder 96 slides and pushes the pushing transmission baffle 95 to slide the filtering and collecting inner box 37, the filtering and collecting inner box 37 is attached to the bottom of the filter layer carrying frame 70 arranged at the lowest side and pushed by the sliding through groove 97, the turning transmission motor 83 is started to drive the turning transmission shaft 84 to rotate, the belt drives each group of overturning belt pulleys 86 to rotate for half a cycle, so that each filtering interception frame 73 is driven to rotate for half a cycle through the overturning rotating shaft 91, the overturning operation is completed, dust impurities drop downwards into the filtering and collecting inner box 37, and then the filtering and collecting inner box 37 resets the pump body to continue to operate, so that the problems that the water flow is influenced and the blockage is caused due to the fact that the amount of the filtering and intercepting dust impurities is gradually increased along with the operation of equipment are solved;

the structure of the invention has a self-maintenance treatment function, the filtration and sedimentation function structure in the energy-saving efficient dedusting tower with the filtration and sedimentation function can realize the operation process by turning the filtration and sedimentation inner box 37 together with each group of filtration interception frames 73, the problem of blockage and flow influence is avoided in the efficient treatment process, after the operation is completed, the structure can be started by the transmission motor 60, the transmission shaft 59 and the transmission bevel gear 61 are driven to rotate, thereby the matched bevel gear 62 and the sliding transmission screw 56 are rotated, the function carrying box 50, the embedded carrying plate body 51 and each group of interception filtering mechanisms 45 are pulled back into the maintenance treatment cavity 52 by the threaded sliding sleeve 78, the turnover transmission shaft 84 is driven to rotate by the belt transmission, each group of turnover belt pulleys 86 is driven to continuously rotate by the belt transmission, each filtration and interception frame 73 is driven to rotate by the turnover rotation shaft 91, the dust impurities intercepted by the filtration and the filtration cloth layer 74 are dropped into the filtration and collection inner box 37, and are intermittently switched on by the transmission electromagnet 68, the vibration mounting 99 is driven by the permanent magnet sliding plate 69 together with the spring, the vibration mounting plate 99 is driven to reciprocate, the filtration and sedimentation plate body 50 is pulled into the maintenance treatment cavity 52, the vibration and the vibration efficiency of the filtration and sedimentation treatment device is reduced, the vibration efficiency is reduced, the dust sedimentation treatment efficiency is reduced, the dust is reduced, and the personnel is prevented from being regularly polluted, and the filtration and sedimentation treatment device is removed, and the side wall is cleaned, and the dust box is completely has a high-filtration and well, and has a high efficiency.

The above embodiments are only for illustrating the technical concept and features of the present invention, and are intended to enable those skilled in the art to understand the present invention and implement it without limiting the scope of the present invention. All equivalent changes or modifications made in accordance with the spirit of the present invention should be construed to be included in the scope of the present invention.

Claims (10)

1. The utility model provides an possess energy-conserving high-efficient dust removal tower of filtration precipitation function, includes the dust removal tower body and deposits filtering mechanism, be equipped with the gas treatment chamber in the dust removal tower body, the gas treatment chamber top is equipped with the gas output port, the gas treatment chamber is close to downside position outer wall and is equipped with the gas input port, the fixed dust removal subassembly that sprays that is equipped with of gas treatment intracavity array, dust removal tower body bottom lateral wall is equipped with the tank, the tank with gas treatment intracavity intercommunication, its characterized in that: the sedimentation filter mechanism comprises an equipment bottom plate, a sedimentation filter tank is fixedly installed on the upper side of the equipment bottom plate, a maintenance treatment box is arranged on the outer wall of the side of the sedimentation filter tank, a sedimentation filter cavity is arranged in the sedimentation filter tank, a water input port is arranged on the side wall of the upper side of the sedimentation filter cavity and is communicated with the purification output end pipe through a pipe body, a water output port is arranged on the side wall of the lower side of the sedimentation filter cavity and is communicated with the purification back end pipe through a pipe body, three groups of interception filter mechanisms are arranged in the sedimentation filter cavity in a vertical array sliding mode and are arranged in a space position between the water input port and the water output port, each interception filter mechanism comprises a filter layer carrying frame, a filter gauze layer is fixedly installed in the filter layer carrying frame, a maintenance treatment cavity is arranged in the maintenance treatment box, a vibration treatment box is provided with a vibration function carrying collecting box is arranged in the filter layer box, a vibration collecting box is arranged in the vibration collecting box, and a vibration collecting box is arranged in the vibration collecting box, the filtering and collecting inner box can slide to the bottom of the intercepting and filtering mechanism which is arranged at the lowest side in the precipitation and filtering cavity in an attached mode.

2. The energy-saving efficient dust removal tower with a filtering and precipitating function according to claim 1, wherein the energy-saving efficient dust removal tower is characterized in that: the maintenance processing box avris is equipped with function carrying portion, be equipped with indent cooperation groove on the function carrying portion inner wall, be equipped with the transmission in the function carrying portion and carry the chamber, transmission carrying chamber bottom inlays and inlays fixed mounting and have driving motor, the transmission shaft is installed to the driving motor output, transmission shaft array fixed mounting has the transmission helical gear, function carrying portion inner wall is equipped with the lapse transmission chamber, lapse transmission intracavity fixed mounting has lapse driving motor.

3. The energy-saving efficient dust removal tower with a filtering and precipitating function according to claim 2, wherein the energy-saving efficient dust removal tower is characterized in that: the outer walls of the two sides of the function carrying box body are symmetrically and fixedly provided with sliding end blocks, the sliding end blocks positioned at the rear side are internally provided with shaking through grooves, threaded sliding sleeves are arranged in the shaking through grooves, the outer walls of the threaded sliding sleeves are symmetrically provided with sliding supporting columns, the inner walls of the shaking through grooves are symmetrically provided with shaking sliding grooves, the sliding supporting columns are slidably arranged in the shaking sliding grooves and are matched with shaking reset springs, the front and rear inner walls of the maintenance processing cavity are symmetrically provided with two groups of sliding transmission grooves, the end block slides and sets up in corresponding in the transmission inslot that slides, is located the rear side the transmission inslot rotation of sliding is installed and is slided the drive screw, slide the drive screw with screw thread sliding sleeve threaded connection, the drive is carried in the intracavity in the transmission is arranged in to the drive screw rear end, the drive screw end of sliding is installed and is cooperated the helical gear and with corresponding the meshing of drive helical gear is connected.

4. The energy-saving efficient dust removal tower with a filtering and precipitating function according to claim 3, wherein the energy-saving efficient dust removal tower is characterized in that: the inner wall of the rear side of the maintenance treatment box is provided with a pushing transmission groove, the output end of the pushing transmission motor is provided with a pushing transmission screw, the pushing transmission screw is rotationally arranged in the pushing transmission groove, the pushing transmission screw is in threaded connection with two groups of pushing thread sliding drums, the pushing thread sliding drums are slidably arranged in the pushing transmission groove, the pushing thread sliding drums are in threaded connection with the pushing transmission screw, the inner wall of the rear side of the sedimentation collection box is provided with a collection transmission chute, the collection transmission chute is correspondingly communicated with the pushing transmission groove, the outer wall of the rear side of the filtration collection inner box is provided with a collection transmission sliding plate, the collecting transmission slide board is arranged in the collecting transmission slide groove in a sliding manner, a pushing transmission baffle is arranged on the rear side of the collecting transmission slide board, the pushing transmission baffle is arranged in the pushing transmission groove and between two pushing thread sliding drums, an inner box sliding through groove is formed in the right side wall of the sedimentation collecting box, a drawing notch is formed in the outer wall of the maintenance processing box and communicated with the maintenance processing cavity, and the sedimentation collecting box is arranged in the maintenance processing cavity in a sliding manner through the drawing notch and provided with a handle.

5. The energy-saving efficient dust removal tower with a filtering and precipitating function according to claim 4, wherein the energy-saving efficient dust removal tower is characterized in that: the sedimentation filter chamber avris inner wall is equipped with inlays seals the slip and leads to the groove, sedimentation filter chamber downside position avris inner wall is equipped with the slip and leads to the groove, slip lead to the groove with the corresponding intercommunication of inner box slip leads to the groove and can supply the filtration is collected the inner box and is passed, sedimentation filter chamber bottom inner wall is equipped with the diapire spout, install the baffle slider in the diapire spout, the baffle slider with install the long spring that resets between the diapire spout inner wall, sealing baffle is installed to the baffle slider upside, sealing baffle can cooperate inboard cushion laminating to seal the slip leads to the groove.

6. The energy-saving efficient dust removal tower with a filtering and precipitating function according to claim 5, wherein the energy-saving efficient dust removal tower is characterized in that: the filter layer is carried the frame limit side outer wall of three groups fixed mounting has fixed end plate jointly, inlay seal slip through groove fixed end plate with inlay and carry the plate body size unanimity, filter layer is carried frame inner wall array and is equipped with pivot bearing groove, filter interception frame outer wall bilateral symmetry is equipped with the framework dead axle, filter interception frame be located the right side the framework dead axle rotates and sets up in corresponding pivot bearing groove, inlay and carry the plate body inner wall array and be equipped with the trip shaft through groove, trip shaft through groove internal rotation is installed the upset pivot, filter interception frame be located the left side the framework dead axle pass through axle sleeve mounting with corresponding trip shaft fixed connection.

7. The energy-saving efficient dust removal tower with a filtering and precipitating function according to claim 6, wherein the energy-saving efficient dust removal tower is characterized in that: the inner wall of the function carrying box body is provided with a turnover belt wheel cavity, the side inner wall of the turnover belt wheel cavity is provided with a turnover transmission cavity, the turnover rotating shaft penetrates through the turnover shaft through groove and is arranged in the turnover belt wheel cavity, the tail end of the turnover shaft through groove is fixedly provided with turnover belt wheels, the turnover belt wheels are transmitted through turnover belts, the outer walls of the turning belt pulleys of the rearmost groups are fixedly provided with driving belt pulleys, the driving belt pulleys are driven by a driving belt, a turning driving motor is arranged in a turning driving cavity, the output end of the turning driving motor is provided with a turning driving shaft, and the turning driving shaft is fixedly connected with the outer wall of the uppermost driving belt pulley.

8. The energy-saving efficient dust removal tower with a filtering and precipitating function according to claim 7, wherein the energy-saving efficient dust removal tower is characterized in that: the maintenance processing box inner wall is equipped with and shakes the transmission chamber, vibrate the transmission chamber and each vibrate the function groove intercommunication, vibrate the function groove position height with corresponding the filter layer carries on the frame position and correspond, vibrate transmission intracavity fixed mounting and have the transmission electro-magnet, vibrate the transmission intracavity sliding mounting and have the permanent magnet slide, the permanent magnet slide with vibrate and install the spring between the transmission intracavity wall, permanent magnet slide outer wall array fixed mounting has vibration installation slide, vibrate the installation slide with correspond vibrate and strike board fixed connection, the filter layer carries on the frame outer wall correspondence and is equipped with vibration cooperation portion.

9. The energy-saving efficient dust removal tower with a filtering and precipitating function according to claim 1, wherein the energy-saving efficient dust removal tower is characterized in that: the spray dust removal assembly comprises a carrying screen plate fixedly arranged on the inner wall of the gas treatment cavity, a spray pipe is fixedly arranged at the bottom of the carrying screen plate, a spray port is arranged on the spray pipe array, an absorption filler is arranged at the top of the carrying screen plate, a communication end hole is formed in the outer side wall array of the gas treatment cavity, a spray communicating pipe is fixedly arranged on the outer side wall array of the gas treatment cavity, and the spray communicating pipe is communicated with the corresponding spray pipe.

10. The energy-saving efficient dust removal tower with a filtering and precipitating function according to claim 9, wherein the energy-saving efficient dust removal tower is characterized in that: the water storage tank is internally provided with a water cavity, the water cavity in the water storage tank is communicated with the gas treatment cavity, the water storage tank is internally provided with a purification output water pump, a purification back suction pump and a spray output water pump, the output end of the purification output water pump is communicated with a purification output end pipe, the back suction end of the purification output water pump is communicated with the water cavity in the water storage tank, the back suction port of the purification back suction pump is communicated with the purification back suction end pipe, the output port of the purification back suction pump is communicated with the water cavity in the water storage tank, the top of the water storage tank is provided with a spray conveying pipe, the spray conveying pipe is communicated with the bottom of each spray communicating pipe through a multi-communication valve pipe, the output end of the spray output water pump is communicated with the water cavity in the water storage tank, and the outer wall array of the dust removal tower body is provided with an observation window used for observing the internal dust removal treatment condition.