CN116020224A

CN116020224A - Dustproof equipment for building construction based on sediment degree reduction type

Info

Publication number: CN116020224A
Application number: CN202310101645.3A
Authority: CN
Inventors: 宋辉; 王磊; 马蕴晶
Original assignee: Shandong Construction Engineering Group Co Ltd
Current assignee: Shandong Construction Engineering Group Co Ltd
Priority date: 2023-02-13
Filing date: 2023-02-13
Publication date: 2023-04-28
Anticipated expiration: 2043-02-13
Also published as: CN116020224B

Abstract

The invention discloses dust-proof equipment for building construction based on reduced sedimentary degree, which comprises a dust removing table, moving wheels, a filter cartridge, a convection suction type source-ground removing mechanism and a mist molecule thinning type filtering mechanism, wherein the moving wheels are arranged on two sides of the dust removing table, the filter cartridge is arranged on the inner wall of the dust removing table, the convection suction type source-ground removing mechanism is arranged on the dust removing table, and the mist molecule thinning type filtering mechanism is arranged at one end of the dust removing table far away from the convection suction type source-ground removing mechanism. The invention belongs to the technical field of dust removing equipment for construction sites, and particularly relates to dust removing equipment for construction based on reduced sedimentary strength; the invention provides dust-proof equipment for construction based on reduced sediments, which can prevent dust settling at night on a construction site and dust generated by daytime operation from fusing with each other, so as to gradually reduce the dust concentration in the air of the construction site.

Description

Dustproof equipment for building construction based on sediment degree reduction type

Technical Field

The invention belongs to the technical field of dust removing equipment for construction sites, and particularly relates to dust removing equipment for construction based on reduced sedimentary strength.

Background

When building construction is performed, a large amount of dust generally drifts on a construction site, and when construction staff performs construction in such an environment for a long time, dust is sucked into the body too much to cause pneumoconiosis, so that the body is unfavorable, and dust removal treatment is required to prevent the environment from being polluted by too much dust for the safety of the construction staff.

The existing site dust removing equipment has the following problems:

1. when the existing dust removing equipment is used, the filtering load pressure of the filter screen is rapidly increased under the condition of large intervention of dust, so that the filtering structure loses filtering operation;

2. the existing dust filtering equipment can only treat dust floating in the air in the daytime, but can not treat dust deposited on the ground when working at night on a construction site;

3. the conventional dust filtering apparatus has a priority in the dust adsorption range, and cannot perform dust removal operation according to the use requirement.

Disclosure of Invention

Aiming at the defects of the prior art, the technical scheme provides dust-proof equipment for construction based on the reduced sediments, aiming at the problem that dust in the air of a construction site is gradually increased due to the mutual fusion of the sediments dust in the construction site and the dust generated during daytime operation, the invention adopts a segmentation principle to divide the filtering equipment into two parts of structures which are easy to assemble and disassemble.

The invention provides dust-proof equipment for construction based on reduced sediments, which can prevent dust settling at night on a construction site and dust generated by daytime operation from fusing with each other, so as to gradually reduce the dust concentration in the air of the construction site.

The technical scheme adopted by the scheme is as follows: the utility model provides a dustproof equipment for construction based on deposit degree reduction type construction, including dust removal platform, removal wheel, cartridge filter, convection suction type source ground clearance mechanism and fog molecule refines type filtering mechanism, the removal wheel is located the dust removal platform both sides, the cartridge filter is located the dust removal platform inner wall, convection suction type source ground clearance mechanism locates the dust removal bench, fog molecule refines type filtering mechanism locates the dust removal platform and keeps away from convection suction type source ground clearance mechanism's one end, convection suction type source ground clearance mechanism includes cover expansion type dust collection mechanism, gravity and holds type rolling mechanism, cover extension mechanism and gradient type and put and block up extraction mechanism, cover expansion type dust collection mechanism locates dust removal bench one side, gravity and hold type rolling mechanism locates the dust removal bench, cover extension mechanism locates the dust removal bench and be close to one side of cover expansion type dust collection mechanism, gradient type is put and is blocked up extraction mechanism and is located the cartridge filter upper wall, fog molecule refines type filtering mechanism includes that atomizing takes place conveying mechanism and refines type filtering mechanism, atomizing takes place conveying mechanism locates dust removal bench one side, it locates inside the cartridge filter of the filter of impact type.

As a further preferable scheme, the covering expansion type dust collecting mechanism comprises a bearing column, external threads, a fixing nut, a movable partition table and an insertion connection port, wherein the bearing column is symmetrically arranged on the side wall of the dust collecting table, the external threads are arranged at one end, far away from the dust collecting table, of the bearing column, the fixing nut is arranged on the outer side of the external threads, the fixing nut is in threaded connection with the external threads, the movable partition table is arranged on one side of the dust collecting table, and the insertion connection port is symmetrically arranged on the side wall of the top of the movable partition table; the gravity-holding type winding mechanism comprises a convection groove, a convection rotating shaft, a convection reel, a convection plastic hose, a dust blowing port, a sliding balancing weight, a counterweight threaded hole and a counterweight bolt, wherein the convection groove is symmetrically arranged on the upper wall of a dust removal table on two sides of a filter cartridge, the convection groove is communicated, the convection rotating shaft is arranged between the inner wall of the convection groove and the side wall of the filter cartridge, the convection reel is rotationally arranged on the outer side of the convection rotating shaft, the convection plastic hose is wound on the convection reel, one end of the convection plastic hose, far away from the convection reel, is penetrated on the dust removal table, the plurality of groups of the dust blowing ports are arranged on the side wall of the convection plastic hose, the sliding balancing weight is slidingly arranged on one end of the convection plastic hose, far away from the convection reel, the counterweight threaded hole is arranged on the side wall of the sliding balancing weight, and the counterweight bolt is arranged in the counterweight threaded hole, and the counterweight bolt is in threaded connection with the counterweight threaded hole; the covering extension mechanism comprises extension grooves, springs, fixing plates, extension threaded holes, extension bolts, motor balance weight platforms and dust collecting motors, wherein the extension grooves are symmetrically arranged on two sides of the movable partition platform, the extension grooves are formed in one end opening mode, the springs are arranged on the inner walls of the extension grooves, the fixing plates are arranged on one side, far away from the inner walls of the extension grooves, of the springs, the plurality of groups of the extension threaded holes are arranged on two sides of the movable partition platform, the extension bolts are rotationally arranged on the side walls of the fixing plates, one ends, far away from the fixing plates, of the extension bolts are arranged in the extension threaded holes, the extension bolts are in threaded connection with the extension threaded holes, the motor balance weight platforms are arranged on one side, far away from the movable partition platform, of the fixing plates, the dust collecting motors are arranged on one ends, far away from the fixing plates, of the convection plastic hoses are arranged on the exhaust ends of the dust collecting motors; the gradient type plug-releasing and extracting mechanism comprises a gradient table, a gradient reel, a support plate, a support, a dust collection table, a dust collection motor, a gradient plastic hose, a dust collection port, a dust conveying pipe, a flow dividing cylinder and a filtering telescopic pipe, wherein the gradient table is arranged on the upper wall of the filter cylinder, the gradient reel is rotationally arranged at one end of the gradient table far away from the filter cylinder, the support plate is symmetrically arranged on two sides of the movable partition table, the support is arranged between the upper walls of the support plate, the dust collection table is arranged on the support, the dust collection motor is arranged on the upper wall of the dust collection table, the gradient plastic hose is wound on the outer side of the gradient reel, one end of the gradient plastic hose far away from the gradient reel is arranged at the air suction end of the dust collection motor, the plurality of groups of dust collection ports are arranged on the bottom wall of the gradient plastic hose, the flow dividing cylinder is arranged on the inner wall of the top of the movable partition table, the dust conveying pipe penetrates through the support and is arranged between the air outlet end of the dust collection motor and the flow dividing cylinder, and the filtering telescopic pipe penetrates the movable partition table and the support plate to be communicated between the filter cylinder and the filter cylinder.

When in use, in the initial state, the movable partition table is placed on the bearing column through the insertion connection port, the fixing nut is positioned on the bearing column at one side of the movable partition table far away from the dust removal table, the movable partition table rotates along the external thread to fix the movable partition table on the bearing column, the convection plastic hose is wound on the outer side of the convection reel, the gradient plastic hose is wound on the outer side of the gradient reel, when collecting site dust in daytime, the dust collection motor sucks the dust in the air into the dust conveying pipe through the gradient plastic hose through the dust collection port, the dust conveying pipe conveys the dust into the filtering telescopic pipe through the split sleeve, the filtering telescopic pipe conveys the dust into the filter cylinder for filtering treatment, when the dust in the site is treated at night, the operation is stopped at night, the floating dust in the air falls on the ground, so the fixing nut is screwed out from the bearing column, the movable dividing table slides along the bearing column to be far away from the side wall of the dust removing table, the movable dividing table moves to a position far away from the dust removing table, the convection reel rotates to unwind the convection plastic hose, the gradient reel rotates to unwind the gradient plastic hose, the gradient plastic hose is placed in an inclined state after being unwound, so that a large amount of dust can be prevented from entering the inside of the filter cylinder at the same time to increase the filtering load of a filtering mechanism in the filter cylinder, an extension bolt is screwed out of the extension threaded hole to enable a fixing plate to be separated from the side wall of the movable dividing table, under the action of spring deformation, a motor counterweight table is taken to the ground on two sides of the movable dividing table, the dust blowing range is enlarged, after the sliding counterweight block slides along the convection plastic hose to reach a position required by a user, the sliding counterweight bolt is rotated to fix the sliding counterweight block on the side wall of the convection plastic hose, the sliding balancing weight drives the convection plastic hose to be attached to the ground through self gravity, the dust collecting motor blows dust on the ground through the dust blowing port, the dust collecting motor sucks the dust into the gradient plastic hose through the dust sucking port, the dust in the gradient plastic hose enters the inside of the split flow cylinder through the dust conveying pipe, the split flow cylinder conveys the dust into the inside of the filtering telescopic pipe, and the filtering telescopic pipe conveys the dust into the inside of the filtering cylinder for filtering treatment.

Preferably, the atomization generation conveying mechanism comprises an atomization plate, a water source cylinder, an ultrasonic atomizer, a mist pipe, a large particle filter screen and a one-way exhaust valve, wherein the atomization plate is symmetrically arranged at one end of the dust removal table, which is far away from the movable partition table, the water source cylinder is arranged between the atomization plates, the ultrasonic atomizer is arranged at one side of the water source cylinder, which is close to the dust removal table, the power end of the ultrasonic atomizer is penetrated and arranged on the inner wall of the water source cylinder, the mist pipe penetrates through the atomization plate, the filter cylinder is communicated and arranged between the filter cylinder and the water source cylinder, the large particle filter screen is arranged at one end inner wall of the filter cylinder, which is far away from the water source cylinder, and the one-way exhaust valve is communicated and arranged on the upper wall of the filter cylinder; the refined impact type filtering mechanism comprises a fixing seat, a heating rod and a copper sleeve, wherein the fixing seat is arranged on the inner wall of one end of the filter cylinder, which is far away from the large-particle filter screen, the heating rod is arranged on one side of the fixing seat, which is far away from the inner wall of the filter cylinder, and the copper sleeve is arranged on the side wall of the fixing seat, which is arranged on the outer side of the heating rod.

During the use, external dust is filtered the back through the macroparticle filter screen, great dust is intercepted by the macroparticle filter screen, less dust passes the one end that the macroparticle filter screen reached cartridge filter inside contains water smoke, ultrasonic atomizer shakes the atomizing through the power end to the inside water source of water source section of thick bamboo, water smoke is through fog pipe entering cartridge filter inside to copper sleeve, the heating rod heats copper sleeve, copper sleeve evaporates the refinement through the heat to water smoke, make the water smoke become more dense, thereby be convenient for better adsorb the processing to less dust, the gas after the filtration is through one-way discharge valve discharge cartridge filter inside, thereby accomplish the filter operation to dust in the air.

Specifically, the side wall of the gradient table is provided with a controller.

Wherein, the controller is connected with dust collection motor, ultrasonic atomizer and heating rod electricity respectively.

Preferably, the controller is of the type SYC89C52RC-401.

The beneficial effect that this scheme of adoption above-mentioned structure obtained is as follows:

compared with the prior art, the scheme has the advantages that the convection suction type source ground cleaning mechanism can be used for adjusting and removing dust according to daytime operation conditions and night operation conditions, the expansion movement of the movable partition table can be used for carrying out convection treatment on dust which is settled on the ground at night, the concentration of the dust which floats from the ground during daytime operation can be effectively reduced, therefore, the combination of the dust generated during daytime operation and the dust which is settled on the ground is reduced, the dust concentration in the air is reduced, the reduction of the load pressure of the filtering equipment on dust treatment is facilitated, the sustainable use of the filtering equipment is guaranteed, the sliding balancing weight is fixed on the side wall of the convection plastic hose by rotating the counterweight bolt after the sliding balancing weight slides along the convection plastic hose to a position required by a user, the sliding balancing weight drives the convection plastic hose to be attached to the ground through self gravity, the dust collecting motor is used for carrying out convection treatment on the dust on the ground through the dust blowing opening, the dust is sucked into the gradient plastic hose through the dust sucking opening, the dust inside the gradient plastic hose enters the inside the flow dividing cylinder through the dust conveying pipe, the flow dividing cylinder is used for conveying the dust into the filtering telescopic pipe, and the filtering telescopic pipe is used for filtering the dust inside the filtering telescopic pipe, and the filtering the dust is conveyed into the filtering telescopic pipe;

through the fog molecule of setting up type filtering mechanism that refines, can refine the processing once more to the water smoke after the vibration, carry out the increase concentration to the tiny dust that passes the large granule filter screen and encircle the absorption, reduce the probability that tiny dust leaked, improve filtration equipment to the purification efficiency of air, copper sleeve evaporates the refinement through the heat to water smoke, make the water smoke become more dense, thereby be convenient for better adsorb the processing to less dust, the gas after the filtration is inside through one-way discharge valve discharge cartridge filter, thereby accomplish the filter operation to the dust in the air.

Drawings

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

FIG. 2 is a perspective view of the present solution;

FIG. 3 is an oblique view of the present solution;

FIG. 4 is a front view of the present solution;

FIG. 5 is a left side view of the present solution;

FIG. 6 is a right side view of the present solution;

FIG. 7 is a top view of the present solution;

FIG. 8 is a partial cross-sectional view of portion A-A of FIG. 7;

FIG. 9 is a partial cross-sectional view of B-B of FIG. 7;

FIG. 10 is a partial cross-sectional view of the C-C of FIG. 7;

fig. 11 is an enlarged schematic view of a portion a of fig. 1.

Wherein, 1, a dust removing table, 2, a moving wheel, 3, a filter cartridge, 4, a convection suction type source and ground cleaning mechanism, 5, a covering expansion type dust collecting mechanism, 6, a bearing column, 7, an external thread, 8, a fixing nut, 9, a moving partition table, 10, an inserting connection port, 11, a gravity holding type rolling mechanism, 12, a convection groove, 13, a convection rotating shaft, 14, a convection reel, 15, a convection plastic hose, 16, a dust blowing port, 17, a sliding balancing weight, 18, a balancing weight threaded hole, 19, a balancing weight bolt, 20, a covering extension mechanism, 21, an extension groove, 22, a spring, 23, a fixing plate, 24, an extension threaded hole, 25, an extension bolt, 26, a motor balancing weight table, 27, a dust collection motor, 28, a gradient type plug placing and extracting mechanism, 29, a gradient table, 30, a gradient reel, 31, a support plate, 32, a bracket, 33, a dust collection table, 34, a dust collection motor, 35, a gradient plastic hose, 36, a dust collection port, 37, a dust conveying pipe, 38, a shunt cylinder, 39, a filtering telescopic pipe, 40, a mist molecule thinning type filtering mechanism, 41, an atomization generating and conveying mechanism, 42, an atomization plate, 43, a water source cylinder, 44, an ultrasonic atomizer, 45, a mist pipe, 46, a large particle filter screen, 47, a one-way exhaust valve, 48, a thinning impact type filtering mechanism, 49, a fixed seat, 50, a heating rod, 51, a copper sleeve, 52 and a controller.

The accompanying drawings are included to provide a further understanding of the present disclosure and are incorporated in and constitute a part of this disclosure, illustrate and do not limit the disclosure.

Description of the embodiments

The technical solutions in the embodiments of the present solution will be clearly and completely described below with reference to the drawings in the embodiments of the present solution, and it is apparent that the described embodiments are only some embodiments of the present solution, but not all embodiments; all other embodiments, based on the embodiments in this solution, which a person of ordinary skill in the art would obtain without inventive faculty, are within the scope of protection of this solution.

In the description of the present embodiment, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate orientation or positional relationships based on those shown in the drawings, merely to facilitate description of the present embodiment and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be configured and operated in a particular orientation, and thus should not be construed as limiting the present embodiment.

As shown in fig. 1-11, the dust-proof equipment for building construction based on the reduced sediment degree provided by the scheme comprises a dust collection table 1, a movable wheel 2, a filter cartridge 3, a convection suction type source and ground removing mechanism 4 and a fog molecule thinning type filtering mechanism 40, wherein the movable wheel 2 is arranged on two sides of the dust collection table 1, the filter cartridge 3 is arranged on the inner wall of the dust collection table 1, the convection suction type source and ground removing mechanism 4 is arranged on the dust collection table 1, the fog molecule thinning type filtering mechanism 40 is arranged at one end of the dust collection table 1 far away from the convection suction type source and ground removing mechanism 4, the convection suction type source and ground removing mechanism 4 comprises a coverage expansion type dust collection mechanism 5, a gravity holding type winding mechanism 11, a coverage extension mechanism 20 and a gradient type releasing and blocking extracting mechanism 28, the coverage expansion type dust collection mechanism 5 is arranged on one side of the dust collection table 1, the gravity holding type winding mechanism 11 is arranged on the dust collection table 1, the coverage extension mechanism 20 is arranged on one side of the dust collection table 1 close to the coverage expansion type dust collection mechanism 5, the gradient type releasing and blocking and extracting mechanism 28 is arranged on the upper wall of the filter cartridge 3, the fog molecule thinning type filtering mechanism comprises a mist molecule thinning and conveying mechanism 40 and a filtering and an impact type filtering mechanism 48 arranged on one side of the filter cartridge 1.

The covering expansion type dust collecting mechanism 5 comprises a bearing column 6, external threads 7, a fixing nut 8, a movable partition table 9 and an insertion connection port 10, wherein the bearing column 6 is symmetrically arranged on the side wall of the dust collecting table 1, the external threads 7 are arranged at one end, far away from the dust collecting table 1, of the bearing column 6, the fixing nut 8 is arranged on the outer side of the external threads 7, the fixing nut 8 is in threaded connection with the external threads 7, the movable partition table 9 is arranged on one side of the dust collecting table 1, and the insertion connection port 10 is symmetrically arranged on the side wall of the top of the movable partition table 9; the gravity holding type winding mechanism 11 comprises a convection groove 12, a convection rotating shaft 13, a convection reel 14, a convection plastic hose 15, a dust blowing port 16, a sliding balancing weight 17, a counterweight threaded hole 18 and a counterweight bolt 19, wherein the convection groove 12 is symmetrically arranged on the upper wall of the dust removal table 1 on two sides of the filter cylinder 3, the convection groove 12 is in through arrangement, the convection rotating shaft 13 is arranged between the inner wall of the convection groove 12 and the side wall of the filter cylinder 3, the convection reel 14 is rotationally arranged on the outer side of the convection rotating shaft 13, the convection plastic hose 15 is wound on the convection reel 14, one end of the convection plastic hose 15, far from the convection reel 14, is penetrated on the dust removal table 1, a plurality of groups of dust blowing ports 16 are arranged on the side wall of the convection plastic hose 15, the sliding balancing weight 17 is slidably arranged on one end of the convection plastic hose 15, far from the convection reel 14, the counterweight threaded hole 18 is arranged on the side wall of the sliding balancing weight 17, the counterweight bolt 19 is arranged inside the counterweight threaded hole 18, and the counterweight bolt 19 is in threaded connection with the counterweight threaded hole 18. The covering extension mechanism 20 comprises extension grooves 21, springs 22, fixing plates 23, extension threaded holes 24, extension bolts 25, motor balance weight platforms 26 and dust collecting motors 27, wherein the extension grooves 21 are symmetrically arranged on two sides of the movable partition platform 9, the extension grooves 21 are arranged with one end open, the springs 22 are arranged on the inner walls of the extension grooves 21, the fixing plates 23 are arranged on one sides of the springs 22 far away from the inner walls of the extension grooves 21, a plurality of groups of extension threaded holes 24 are arranged on two sides of the movable partition platform 9, a plurality of groups of extension bolts 25 are rotatably arranged on the side walls of the fixing plates 23, one ends of the extension bolts 25 far away from the fixing plates 23 are arranged in the extension threaded holes 24, the extension bolts 25 are in threaded connection with the extension threaded holes 24, the motor balance weight platforms 26 are arranged on one side of the fixing plates 23 far away from the movable partition platform 9, the dust collecting motors 27 are arranged on one ends of the motor balance weight platforms 26 far away from the fixing plates 23, and one ends of the convection plastic hoses 15 far away from the convection coil 14 are arranged on the exhaust ends of the dust collecting motors 27; the gradient type plug-releasing and extracting mechanism 28 comprises a gradient table 29, a gradient reel 30, a support plate 31, a support frame 32, a dust collection table 33, a dust collection motor 34, a gradient plastic hose 35, a dust collection port 36, a dust conveying pipe 37, a flow distribution cylinder 38 and a filtering telescopic pipe 39, wherein the gradient table 29 is arranged on the upper wall of the filter cylinder 3, the gradient reel 30 is rotationally arranged at one end, far away from the filter cylinder 3, of the gradient table 29, the support plate 31 is symmetrically arranged on two sides of the movable partition table 9, the support frame 32 is arranged between the upper walls of the support plate 31, the dust collection table 33 is arranged on the support frame 32, the dust collection motor 34 is arranged on the upper wall of the dust collection table 33, the gradient plastic hose 35 is wound on the outer side of the gradient reel 30, one end, far away from the gradient plastic hose 35, of the gradient plastic hose 36 is arranged at the air suction end of the gradient plastic hose 35, the flow distribution cylinder 38 is arranged on the inner wall of the top of the movable partition table 9, the dust conveying pipe 37 is communicated with the support frame 32 and arranged between the air outlet end of the flow distribution cylinder 38, and the filtering telescopic pipe 39 is communicated with the movable partition table 9 and the support plate 31 and arranged between the filter cylinder 3 and the flow distribution cylinder 38.

The atomization generation conveying mechanism 41 comprises an atomization plate 42, a water source cylinder 43, an ultrasonic atomizer 44, a mist pipe 45, a large particle filter screen 46 and a one-way exhaust valve 47, wherein the atomization plate 42 is symmetrically arranged at one end of the dust removal table 1 far away from the movable partition table 9, the water source cylinder 43 is arranged between the atomization plates 42, the ultrasonic atomizer 44 is arranged at one side of the water source cylinder 43 close to the dust removal table 1, the power end of the ultrasonic atomizer 44 is penetrated through the inner wall of the water source cylinder 43, the mist pipe 45 penetrates through the atomization plate 42, the filter cartridge 3 is communicated between the filter cartridge 3 and the water source cylinder 43, the large particle filter screen 46 is arranged at the inner wall of one end of the filter cartridge 3 far away from the water source cylinder 43, and the one-way exhaust valve 47 is communicated with the upper wall of the filter cartridge 3; the refined impact type filtering mechanism 48 comprises a fixing seat 49, a heating rod 50 and a copper sleeve 51, wherein the fixing seat 49 is arranged on the inner wall of one end of the filter cylinder 3 far away from the large-particle filter screen 46, the heating rod 50 is arranged on one side of the fixing seat 49 far away from the inner wall of the filter cylinder 3, and the copper sleeve 51 is arranged on the side wall of the fixing seat 49 on the outer side of the heating rod 50.

The side wall of the gradient table 29 is provided with a controller 52.

The controller 52 is electrically connected to the dust collection motor 27, the dust collection motor 34, the ultrasonic atomizer 44, and the heating rod 50, respectively.

The controller 52 is of the type SYC89C52RC-401.

In particular use, in the first embodiment, in the initial state, the movable partition table 9 is placed on the carrying column 6 through the insertion connection port 10, the fixing nut 8 is located on the carrying column 6 on one side of the movable partition table 9 away from the dust removal table 1, the movable partition table 9 rotates along the external thread 7 to fix the movable partition table 9 on the carrying column 6, the convection plastic hose 15 is wound on the outer side of the convection reel 14, and the gradient plastic hose 35 is wound on the outer side of the gradient reel 30.

Specifically, when collecting the dust on the construction site in daytime, the controller 52 controls the dust collection motor 34 to start, the dust collection motor 34 sucks the dust in the air into the dust conveying pipe 37 through the gradient plastic hose 35 through the dust collection port 36, the dust conveying pipe 37 conveys the dust into the filtering telescopic pipe 39 through the flow dividing cylinder 38, and the filtering telescopic pipe 39 conveys the dust into the filtering cylinder 3 for filtering treatment;

when dust in a construction site is treated at night, as the construction site stops working at night and floating dust in air falls on the ground, the fixed nut 8 is manually screwed out from the bearing column 6, the movable dividing table 9 slides along the bearing column 6 to be far away from the side wall of the dust removing table 1, the movable dividing table 9 moves to a position far away from the dust removing table 1, the convection coil 14 rotates to unwind the convection plastic hose 15, the gradient coil 30 rotates to unwind the gradient plastic hose 35, and the gradient plastic hose 35 is placed in an inclined state after being unwound, so that a large amount of dust can be prevented from entering the filter cartridge 3 at the same time, and the filtering load pressure of a filtering mechanism in the filter cartridge 3 is increased;

the extension bolt 25 is manually screwed out from the inner part of the extension threaded hole 24, the fixing plate 23 is separated from the side wall of the movable partition table 9, under the action of deformation of the spring 22, the motor counterweight table 26 is taken to the ground on two sides of the movable partition table 9, so that the dust blowing range is enlarged, the sliding counterweight 17 slides along the convection plastic hose 15 to reach a position required by a user, the sliding counterweight 17 is fixed on the side wall of the convection plastic hose 15 by rotating the counterweight bolt 19, the sliding counterweight 17 drives the convection plastic hose 15 to be attached to the ground through self gravity, the controller 52 controls the dust collecting motor 27 to start, the dust collecting motor 27 blows dust on the ground through the dust blowing opening 16, the controller 52 controls the dust collecting motor 34 to start, the dust collecting motor 34 sucks the dust into the gradient plastic hose 35 through the dust sucking opening 36, the dust inside the gradient plastic hose 35 enters the inside the split-flow cylinder 38 through the dust conveying pipe 37, the split-flow cylinder 38 conveys the dust into the filter telescopic pipe 39, and the filter telescopic pipe 39 conveys the dust into the filter cartridge 3 for filtering treatment.

In the second embodiment, based on the above embodiment, after the external dust is filtered by the large particle filter screen 46, the large dust is intercepted by the large particle filter screen 46, the small dust passes through the large particle filter screen 46 to reach one end of the filter cartridge 3 containing water mist, the controller 52 controls the ultrasonic atomizer 44 to start, the ultrasonic atomizer 44 performs oscillation atomization on the water source in the water source cartridge 43 through the power end, the water mist enters the filter cartridge 3 through the mist pipe 45 to impact the copper sleeve 51, the controller 52 controls the heating rod 50 to start, the heating rod 50 heats the copper sleeve 51, the copper sleeve 51 performs evaporation refinement on the water mist through heat, so that the water mist becomes thicker, thereby facilitating better adsorption treatment on the small dust, and the filtered gas is discharged out of the filter cartridge 3 through the one-way exhaust valve 47, thereby completing the filtering operation on the dust in the air; repeating the above operation when using next time.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present solution have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations may be made to these embodiments without departing from the principles and spirit of the solution, the scope of which is defined in the appended claims and their equivalents.

The present embodiment and the embodiments thereof have been described above with no limitation, and the embodiment shown in the drawings is merely one of the embodiments of the present embodiment, and the actual structure is not limited thereto. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the technical solution.

Claims

1. Dustproof equipment for construction based on sedimentary degree reduces formula construction, including dust removal platform (1), removal wheel (2) and cartridge filter (3), its characterized in that: the device also comprises a convection suction type source ground removing mechanism (4) and a fog molecule thinning type filtering mechanism (40), wherein the movable wheel (2) is arranged at two sides of the dedusting table (1), the filter cartridge (3) is arranged at one side of the dedusting table (1), the convection suction type source ground removing mechanism (4) is arranged on the dedusting table (1), the fog molecule thinning type filtering mechanism (40) is arranged at one end of the dedusting table (1) far away from the convection suction type source ground removing mechanism (4), the convection suction type source ground removing mechanism (4) comprises a covering expansion type dust collecting mechanism (5), a gravity holding type winding mechanism (11), a covering extension mechanism (20) and a gradient type blocking extracting mechanism (28), the covering expansion type dust collecting mechanism (5) is arranged at one side of the dedusting table (1), the gravity holding type winding mechanism (11) is arranged on the dedusting table (1), the covering extension mechanism (20) is arranged at one side of the dedusting table (1) close to the covering expansion type dust collecting mechanism (5), the gradient type blocking extracting mechanism (28) is arranged at one side of the filter cartridge (3), the fog molecule thinning mechanism (40) is arranged on one side of the dedusting table (41), the fog molecule thinning mechanism (41) is arranged on the conveying mechanism (41), the fine impact type filtering mechanism (48) is arranged in the filter cylinder (3).

2. A dust-proof apparatus for construction based on a reduced degree of deposition according to claim 1, wherein: the utility model provides a cover expansion formula dust collection mechanism (5) is including carrying post (6), external screw thread (7), fixation nut (8), removal segmentation platform (9) and insert connector (10), it locates dust removal platform (1) lateral wall to carry post (6) symmetry, the one end that dust removal platform (1) was kept away from to carrying post (6) is located to external screw thread (7), the outside of external screw thread (7) is located to fixation nut (8), fixation nut (8) and external screw thread (7) threaded connection, removal segmentation platform (9) are located dust removal platform (1) one side, insert connector (10) symmetry are located removal segmentation platform (9) top lateral wall.

3. A dust-proof apparatus for construction based on a reduced degree of deposition according to claim 2, wherein: the gravity adds holds formula winding mechanism (11) including to chute (12), convection shaft (13), convection reel (14), convection plastic hose (15), blow dirt mouth (16), slip balancing weight (17), counter weight screw hole (18) and counter weight bolt (19), the dust removal platform (1) upper wall of cartridge filter (3) both sides is located to convection chute (12) symmetry, convection chute (12) are link up the setting, convection shaft (13) are located between convection chute (12) inner wall and cartridge filter (3) lateral wall, convection reel (14) rotate and locate convection shaft (13) outside.

4. A dust-proof apparatus for use in reduced-sediment-based construction according to claim 3, wherein: the utility model discloses a dust removal platform, including counter flow plastic hose (15), counter flow plastic hose (15) are twined and are located on counter flow reel (14), and counter flow plastic hose (15) keep away from the one end of counter flow reel (14) and run through and locate on dust removal platform (1), multiunit counter flow plastic hose (15) lateral wall is located to dust blowing mouth (16), counter flow plastic hose (15) are kept away from the one end of counter flow reel (14) to slip balancing weight (17), counter weight screw hole (18) are located slip balancing weight (17) lateral wall, counter weight bolt (19) are located counter weight screw hole (18) inside, counter weight bolt (19) and counter weight screw hole (18) threaded connection.

5. The dust-proof apparatus for construction based on reduced sedimentary strength according to claim 4, wherein: the utility model provides a dust collection hose, including extension mechanism (20), extension mechanism (20) are including extension groove (21), spring (22), fixed plate (23), extension screw hole (24), extension bolt (25), motor counter weight platform (26) and dust collection motor (27), the extension groove (21) symmetry is located and is cut apart platform (9) both sides, extension groove (21) are one end opening setting, spring (22) are located extension groove (21) inner wall, one side of extension groove (21) inner wall is kept away from to spring (22) is located to fixed plate (23), multiunit extension screw hole (24) are located and are cut apart platform (9) both sides, multiunit extension bolt (25) rotate and locate fixed plate (23) lateral wall, extension bolt (25) are kept away from the one end of fixed plate (23) and are located extension screw hole (24) inside, extension bolt (25) and extension screw hole (24) threaded connection, one side of cutting apart platform (9) is kept away from to fixed plate (23) is located to motor counter weight platform (26), dust collection motor (27) are located motor counter weight platform (26) and are kept away from one end of fixed plate (23), convection current motor (15) are kept away from dust collection hose (14).

6. The dust-proof apparatus for construction based on reduced sedimentary strength according to claim 5, wherein: the utility model provides a plug extraction mechanism (28) is put to gradient includes gradient platform (29), gradient reel (30), extension board (31), support (32), dust absorption platform (33), dust absorption motor (34), gradient plastic hose (35), dust absorption mouth (36), dust conveying pipe (37), reposition of redundant personnel section of thick bamboo (38) and filtration flexible pipe (39), gradient platform (29) are located cartridge filter (3) upper wall, gradient reel (30) rotate and are located gradient platform (29) and keep away from the one end of cartridge filter (3), the extension board (31) symmetry is located and is cut apart platform (9) both sides, support (32) are located between extension board (31) upper wall, dust absorption platform (33) are located on support (32), dust absorption motor (34) are located dust absorption platform (33) upper wall.

7. The dust-proof apparatus for construction based on reduced sedimentary strength according to claim 6, wherein: the gradient plastic hose (35) twines and locates gradient reel (30) outside, the one end that gradient plastic hose (35) kept away from gradient reel (30) is located dust absorption motor (34) and is taken out the end, multiunit dust absorption mouth (36) are located gradient plastic hose (35) diapire, shunt tube (38) are located and are moved and cut apart platform (9) top inner wall, dust conveying pipe (37) run through support (32) intercommunication and locate dust absorption motor (34) and go out between end and shunt tube (38), filtration flexible pipe (39) run through and move and cut apart platform (9), extension board (31) intercommunication and locate between cartridge filter (3) and shunt tube (38).

8. The dust-proof apparatus for construction based on reduced sedimentary strength according to claim 7, wherein: the atomization generation conveying mechanism (41) comprises an atomization plate (42), a water source barrel (43), an ultrasonic atomizer (44), a mist pipe (45), a large particle filter screen (46) and a one-way exhaust valve (47), wherein the atomization plate (42) is symmetrically arranged at one end of the dust removal table (1) away from the movable partition table (9), the water source barrel (43) is arranged between the atomization plate (42), and the ultrasonic atomizer (44) is arranged at one side of the water source barrel (43) close to the dust removal table (1).

9. The dust-proof apparatus for construction based on reduced sedimentary strength according to claim 8, wherein: the power end of the ultrasonic atomizer (44) penetrates through the inner wall of the water source barrel (43), the mist pipe (45) penetrates through the atomizing plate (42) and the filter cartridge (3) to be communicated between the filter cartridge (3) and the water source barrel (43), the large-particle filter screen (46) is arranged on the inner wall of one end, far away from the water source barrel (43), of the filter cartridge (3), and the one-way exhaust valve (47) is communicated with the upper wall of the filter cartridge (3).

10. The dust-proof apparatus for construction based on reduced sedimentary strength according to claim 9, wherein: the refining impact type filtering mechanism (48) comprises a fixing seat (49), a heating rod (50) and a copper sleeve (51), wherein the fixing seat (49) is arranged on the inner wall of one end of the filtering cylinder (3) away from the large-particle filter screen (46), the heating rod (50) is arranged on one side of the fixing seat (49) away from the inner wall of the filtering cylinder (3), and the copper sleeve (51) is arranged on the side wall of the fixing seat (49) on the outer side of the heating rod (50).