CN222518148U - Building engineering raise dust controlling means - Google Patents

Abstract

The utility model belongs to the technical field of constructional engineering, and particularly relates to a dust control device for constructional engineering, which comprises a shell, a partition plate, a dust collection chamber, a feeding component, a dust collection component and a negative pressure fan, wherein the partition plate is arranged in the middle of the inside of the shell, the dust collection chamber is arranged at the left side of the inside of the shell, the feeding component is arranged at the left side and the right side of the shell and is used for adding water into a water storage chamber and a dust collection chamber, the dust collection component is arranged in the dust collection chamber and is used for collecting dust lifted by the constructional engineering, the dust collection component comprises a support, the support is arranged at the front side and the rear side of the left side of the partition plate, the support is positioned in the dust collection chamber, the negative pressure fan is arranged on the support, the feeding pipe is arranged at the upper end of the negative pressure fan, the feeding hopper is arranged on the feeding pipe, the feeding hopper penetrates through and stretches out of the shell, the discharging pipe is arranged at the lower end of the negative pressure fan, and the discharging pipe is positioned at the bottom of the dust collection chamber. The utility model provides a construction engineering dust control device capable of fully mixing sucked dust with water by sucking the dust to the bottom in the water.

Description

Building engineering raise dust controlling means

Technical Field

The utility model belongs to the technical field of constructional engineering, and particularly relates to a dust control device for constructional engineering.

Background

The building engineering is an engineering entity formed by building various house buildings and auxiliary facilities thereof and installing and moving lines, pipelines and equipment matched with the house buildings, wherein the house buildings are projects which are provided with top covers, beam columns, walls and foundations and can form internal spaces so as to meet the requirements of people on production, living, study and public activities.

In the process of building covering, more dust can often fly away in the air near the building site, in order to reduce dust near the building site, promote the air quality of surrounding environment and compound the circulated development theory of green, generally all can be furnished with a dust control device, utilize the water smoke to adsorb and subside the dust.

The publication number is CN216092902U, discloses a building engineering dust control device, belongs to building dust control technical field. The utility model provides a building engineering raise dust controlling means, includes the base, base top surface fixedly connected with dust suction box, dust suction box upper portion left side is connected with a plurality of dust absorption pipes, and dust suction box lower part front portion inlays and is equipped with the glass window, is equipped with the pivot in the dust suction box lower part, pivot upper end fixed connection flabellum, pivot upper portion are bilateral symmetry structure and are connected with two horizontal poles, horizontal pole outer end fixedly connected with cleaning rod. According to the technology, the fan blades rotate to suck dust into the lower part in the dust collection box, so that the dust is mixed with water in the dust collection box, and the dust is effectively prevented from overflowing. Although the technology can absorb dust and prevent the dust from overflowing and effectively reduce the dust, the technology only floats on the surface of a water body after sucking the dust into the dust suction box, and cannot be fully mixed with the water.

Disclosure of utility model

The utility model aims at solving the technical problems and provides a construction engineering dust control device capable of fully mixing sucked dust with water at the bottom of water.

In view of the above, the present utility model provides a dust control device for construction engineering, comprising:

The lower ends of the front side and the rear side of the shell are provided with observation plates;

The baffle is arranged in the middle of the inside of the shell;

the water storage chamber is arranged on the right side inside the shell;

The dust falling component is arranged in the water storage cavity and is used for falling dust to the building engineering;

the dust collection chamber is arranged at the left side inside the shell;

the charging components are arranged at the left side and the right side of the shell and are used for charging water into the water storage cavity and the dust collection cavity;

the dust collection assembly is arranged in the dust collection cavity and is used for collecting dust raised by the construction engineering;

The dust collection assembly comprises:

The brackets are arranged on the front side and the rear side of the left side face of the partition plate and are positioned in the dust collecting chamber;

The negative pressure fan is arranged on the bracket;

the feeding pipe is arranged at the upper end of the negative pressure fan;

the feeding hopper is arranged on the feeding pipe, and penetrates through and stretches out of the shell;

The discharging pipe is arranged at the lower end of the negative pressure fan and is positioned at the bottom of the dust collection chamber.

In this technical scheme, dust fall subassembly sets up in the water storage chamber, and its purpose carries out the dust fall to the building engineering through the effect of water, and the dust interact in water and the air makes the dust deposit to in the aquatic to reduce the concentration in the air, dust collection cavity sets up in the left side of casing for collect the remaining dust in the aquatic after the dust fall, dust collection subassembly includes support, negative pressure fan, inlet pipe, feeder hopper and discharging pipe. Negative pressure fan produces the negative pressure, make the air flow in the dust collecting chamber, the feeder hopper stretches out through the casing, make the dust of building engineering can get into dust collecting chamber, negative pressure fan inhales dust and air mixture through the inlet pipe, dust in the air is inhaled behind the negative pressure fan, get into dust collecting chamber, in dust collecting chamber, the dust is adsorbed and concentrated by the air current that negative pressure fan produced, the discharging pipe sets up in dust collecting chamber's bottom, it is inside to discharge negative pressure fan absorptive dust into dust collecting chamber through the discharging pipe, the lower extreme of both sides is equipped with the observation board around the casing, be used for viewing device's operating condition and dust collection condition, through this device, the production of raising dust can be through adding water in the building engineering, dust fall and dust absorption's process come effective control, thereby reduce the influence to the surrounding environment.

In the above technical scheme, further, be equipped with the auxiliary assembly that is used for assisting negative pressure fan dust absorption in the feeder hopper.

In any of the above solutions, further, the auxiliary assembly includes:

The mounting frame is arranged in the feed hopper;

The power source is arranged on the mounting frame;

The fan blade is arranged on the power source and is positioned in the feed hopper.

In this technical scheme, the feeder hopper is the part of dust collection subassembly, be responsible for guiding the dust in the building engineering and get into dust collection cavity, auxiliary assembly mainly used reinforcing negative pressure fan's dust absorption ability, with collect the dust more effectively, the mounting bracket is the part of auxiliary assembly, the setting is in the inside of feeder hopper, it provides support and stable function, ensure auxiliary assembly correctly positioned in the feeder hopper, the power supply sets up on the mounting bracket, provide power for auxiliary assembly, this power supply probably is a motor or other forms power device, be used for driving auxiliary assembly's operation, the flabellum is the key part of auxiliary assembly, set up on the power supply, and be located the inside of feeder hopper, the flabellum can be rotatory through the operation of power supply, the flabellum produces the air current at rotatory in-process, and with the dust in the building engineering is pushed to the negative pressure fan sunction inlet, through increasing the flabellum, the dust absorption function of device has obtained the reinforcing, power supply and the stable function has been installed to the mounting bracket in the feeder hopper, the operation of power supply drives the flabellum rotatory, and push away the dust in the building engineering to the negative pressure fan sunction inlet, thereby increase the dust collection efficiency of device, it is guaranteed to collect the dust better, utilize auxiliary assembly's rotation, the fan's operation of the fan is better, the operation is controlled through the operation of the flabellum of the operation of the fan, thereby dust collection efficiency is improved.

In any of the above technical solutions, further, the dust settling assembly includes:

The support frame is arranged on the right side of the partition board and positioned in the water storage cavity;

the double-shaft motor is arranged on the support frame;

the mounting grooves are formed in the front side and the rear side of the shell;

the air duct is arranged in the mounting groove;

The fans are arranged on output shafts on two sides of the double-shaft motor and are opposite to the air duct;

The filter screen is arranged in the air duct;

a fixing frame for fixing the fixing frame, the support frames are arranged on the front side and the rear side of the support frame;

a water pump, the fixing frames are arranged on the left side and the right side of the fixing frames;

the water inlet pipe is arranged at the lower end of the water pump and is positioned at the lower side of the water storage chamber;

The spray head is arranged at the upper end of the water pump and is positioned at the rear side of the fan.

In this technical scheme, the brace is arranged in the baffle right side, be located the water storage chamber, provide the support for biax motor, biax motor sets up on the support frame, the mounting groove is seted up in both sides around the casing for settle the air duct, the air duct is a structure of direction air current, the fan sets up on the both sides output shaft of biax motor, just to the air duct, this fan produces the air current through the drive of biax motor, the filter screen sets up in the air duct, be used for filtering the dust in the air, ensure only clear air current to pass through, the brace sets up both sides around the support frame, provide the support for the water pump, the inlet tube sets up in the water pump lower extreme, the inlet tube is located the water storage chamber downside, be used for absorbing the water source, the shower nozzle sets up in the water pump upper end, and be located the fan rear side, the water pump is through the inlet tube absorbs the water source, then spout the air current that the fan produced with water smoke through the shower nozzle.

The double-shaft motor is started to drive the fan to rotate, dust in air is generated, the filter screen filters the dust in the air, the passing air is ensured to be relatively clean, the water pump absorbs water, water mist is sprayed to the air flow generated by the fan through the spray head, the fan guides the air flow with the water mist to a building engineering area, the water mist acts on the dust in the air, the dust is settled, building engineering dust can be effectively reduced, and the air quality is improved.

In any of the above solutions, further, the feeding assembly includes:

The charging pipes are arranged at the left side and the right side of the shell, and the two charging pipes are communicated with the dust collection chamber and the water storage chamber at the same side;

the screw cap is arranged on the feeding pipe in a screw mode.

In this technical scheme, through unscrewing the screw cap, then add appropriate amount of water to the filling tube in, water flows to water storage cavity and dust collecting cavity in from the filling tube, wait after the reinforced completion, twist back the screw cap on the filling tube.

In any of the above technical solutions, further, the sewage disposal device further comprises a sewage disposal assembly, wherein the sewage disposal assembly comprises:

the sewage drain pipe is arranged at the left lower side of the shell and is communicated with the dust collection cavity;

The ball valve is arranged on the sewage discharge pipe.

In this technical scheme, after dust and the water mixture that collects in the dust collection chamber, open the ball valve, the blow off pipe just discharges the waste water in the dust collection chamber, after the blowdown is accomplished, close the ball valve.

In any of the above technical solutions, further, the mobile device further includes a moving assembly, where the moving assembly includes:

The bottom plate is arranged at the bottom of the shell;

The support rods are arranged around the bottom of the bottom plate;

The sleeve is movably arranged on the supporting rod;

the damping tube is arranged between the bottom plate and the sleeve;

The universal wheel is arranged at the bottom of the sleeve;

the rack is arranged around the bottom of the bottom plate;

the servo motor is arranged on the rack;

The bevel gears are arranged on the sleeve and the output shaft of the servo motor, and the two bevel gears on the same side are meshed.

In any of the above technical solutions, further, the device further includes a detection assembly, where the detection assembly includes:

The monitoring unit is arranged at the top of the shell and used for monitoring the condition of a construction site, so that the monitoring unit is convenient to move in real time, and the monitoring body is connected with the intelligent mobile phone;

The control module is electrically connected with the monitoring unit, the monitoring unit can monitor the obstacle in the moving process of the device in real time and send the monitored information to the control module in real time, and the control module controls the servo motor to adjust the moving angle of the universal wheel.

In this technical scheme, the bottom plate sets up in the casing bottom, the bracing piece sets up around the bottom plate bottom, provide structural support, sleeve movable type sets up on the bracing piece, can remove in the vertical direction, shock-absorbing tube sets up between bottom plate and sleeve, be used for absorbing vibrations and alleviate vibration transmission, the universal wheel sets up in the sleeve bottom, be used for providing the removal of device and steering ability, the frame sets up around the bottom plate bottom, provide the position of supporting and fixed servo motor, servo motor sets up in the frame, the bevel gear sets up on sleeve and servo motor output shaft, two bevel gears of homonymy mesh, the meshing rotation of bevel gear makes the sleeve realize rotatory under servo motor's control, thereby adjust the angle of universal wheel, the monitoring unit sets up in the casing top, be used for monitoring the various circumstances in construction site, the monitoring unit is connected with the smart mobile phone, can realize remote monitoring and control, control module is connected with the monitoring unit electricity, the information that the monitoring unit sent, but the obstacle of real-time monitoring device removes the in-process, and send monitored information to control module in real time.

During operation, the monitoring unit is connected with the smart phone, the condition of the construction site is monitored in real time, information is transmitted to the control module, the control module receives the information sent by the monitoring unit, the obstacle condition is analyzed, the servo motor is controlled to adjust the angle of the universal wheel, so that the movable assembly avoids the obstacle, the universal wheel of the movable assembly automatically adjusts the direction according to the instruction of the control module, the movable assembly can flexibly and efficiently move in the construction site, the aim of effectively controlling dust is achieved, and the construction engineering dust control device can realize autonomous movement and obstacle avoidance according to the site condition through the cooperation of the movable assembly and the detection assembly, so that the dust condition of the construction site is effectively controlled.

In the technical scheme, when the construction engineering dust control device is needed, firstly, people push a shell to drive a bottom plate to move on the ground through a universal wheel, in the moving process, a monitoring unit monitors the condition of a construction site in real time and transmits information to a control module, the control module receives the information sent by the monitoring unit, analyzes the obstacle condition and controls a servo motor to adjust the angle of the universal wheel, the servo motor drives a gear to rotate, the two gears are meshed, the gear drives a sleeve to rotate, the sleeve drives the universal wheel to rotate, thereby adjusting the moving angle of the universal wheel, so that a moving assembly avoids obstacles, the universal wheel of the moving assembly automatically adjusts the direction according to the instruction of the control module, the device can be flexibly and efficiently moved in the construction site, the purpose of effectively controlling dust is achieved, after the device is moved to the position needing dust fall, screwing off the screw cap, adding a proper amount of water into the feeding pipe, flowing the water from the feeding pipe to the water storage chamber and the dust collecting chamber, after the water storage chamber and the dust settling chamber are added with a proper amount of water, the water is led to the feeding pipe after the water is led to the discharging pipe, people screw the screw cap back to the feeding pipe, then starting the negative pressure fan, the negative pressure fan generates negative pressure, so that dust in the building engineering can enter the feeding pipe from the feeding hopper, the negative pressure fan sucks in the mixture of dust and air through the feeding pipe, the dust in the air is sucked into the water bottom of the dust collecting chamber through the discharging pipe after being sucked into the negative pressure fan, so that the dust is mixed with the water, the lower ends of the front side and the rear side of the shell are provided with observation plates for observing the working state and the dust collecting condition of the device, meanwhile, starting the power source provides power to drive the fan blade to rotate, the dust collecting capacity of the negative pressure fan is enhanced, the dust is collected more effectively, thereby improve building engineering raise dust controlling means's dust collection efficiency, then start biax motor, the both sides output shaft drive fan of biax motor is rotatory, produce the air current, the dust in the filter screen filtration air, ensure that the air current that passes through is relatively clean, the water pump absorbs the water source, spray the air current that produces to the fan through the shower nozzle with water smoke, the fan will have the air current of water smoke to the building engineering region, water smoke and the dust in the air take place the effect, make the dust subside, can reduce building engineering raise dust effectively, improve air quality, after the dust fall work is finished, close biax motor, the water pump, power supply and negative pressure fan, at this moment, the rotatory ball valve of opening of people, the blow off pipe just discharges the waste water in the dust collection chamber, wait for the blowdown to accomplish the back, so alright reach the dust absorption to with the dust of inhalant and water mixing, effectively prevent the dust waft that is collected, discharge dust and water mixture, the air current guides the air current that has the water smoke to the building engineering region simultaneously, water smoke and the dust in the air take place the effect, make the dust subside, can reduce building engineering raise dust effectively, improve the quality, improve the environmental protection, thereby the movable control device is convenient for the movable position to move the place, the movable device can move the universal control in the place, the convenient for moving the position of the movable device, the movable device can move the place, the movable condition is convenient to move the occasion, the real-time control, the position is convenient to move the obstacle, and convenient to move the occasion, and convenient to control, and move the occasion can be used in the occasion control.

The beneficial effects of the utility model are as follows:

1. Through adding the water which is not passed through the discharging pipe into the dust collecting cavity, the negative pressure fan generates negative pressure, so that dust in the construction engineering can enter the feeding pipe from the feeding hopper, and enter the water bottom of the dust collecting cavity through the discharging pipe, so that the dust is mixed with the water, the dust is effectively controlled, and the influence of the dust on the surrounding environment is reduced;

2. the power source provides power to drive the fan blades to rotate, so that the dust collection capability of the negative pressure fan is enhanced, dust is collected more effectively, and the dust collection efficiency of the dust control device in the construction engineering is improved;

3. The fan is driven to rotate by the double-shaft motor to generate air flow, the filter screen filters dust in the air, the passing air flow is ensured to be relatively clean, the spray nozzle sprays water mist to the air flow generated by the fan, the fan guides the air flow with the water mist to a construction area, the water mist acts on the dust, so that the dust is settled, the dust raising in the construction can be effectively reduced, and the air quality is improved;

4. observing the working state and dust collecting condition of the device through an observation plate;

5. In the moving process of the universal wheel, the monitoring unit monitors the situation of the construction site in real time and transmits information to the control module, the control module receives the information sent by the monitoring unit, analyzes the obstacle situation and controls the servo motor to adjust the angle of the universal wheel so that the moving assembly avoids the obstacle, and the device can move flexibly and efficiently in the construction site;

6. By unscrewing the screw cap, a proper amount of water is conveniently added into the dust collection chamber and the water outlet chamber, so that the feeding is convenient, and the use is more convenient.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of a partial perspective structure of the present utility model;

figure 3 is a cross-sectional view of the cleaning assembly of the present utility model;

FIG. 4 is a cross-sectional view of the dust suppression assembly of the present utility model;

FIG. 5 is a schematic view of a portion of a mobile assembly of the present utility model in perspective;

FIG. 6 is a system frame diagram of the present utility model;

The reference numerals in the figure are 1, a shell, 2, an observation plate, 21, a baffle plate, 22, a water storage cavity, 23, a dust collection cavity, 3, a dust collection component, 31, a bracket, 32, a negative pressure fan, 33, a feeding pipe, 34, a feeding hopper, 35, a discharging pipe, 4, an auxiliary component, 41, a mounting bracket, 42, a power source, 43, a fan blade, 5, a dust fall component, 51, a supporting bracket, 52, a double-shaft motor, 53, a mounting groove, 54, an air duct, 55, a fan, 56, a filter screen, 57, a fixing bracket, 58, a water pump, 59, a water inlet pipe, 510, a spray head, 6, a feeding component, 61, a feeding pipe, 62, a screw cap, 7, a pollution discharge component, 71, a pollution discharge pipe, 72, a ball valve, 8, a moving component, 81, a bottom plate, 82, a supporting rod, 83, a sleeve, 84, a damping pipe, 85, a universal wheel, 86, a rack, 87, a servo motor, 88, a bevel gear, 9, a detection component, 91, a monitoring unit, 92 and a control module.

Detailed Description

The technical solutions of the embodiments of the present application will be clearly described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which are obtained by a person skilled in the art based on the embodiments of the present application, fall within the scope of protection of the present application.

In the description of the present application, it is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments in accordance with the present application. For ease of description, the dimensions of the various features shown in the drawings are not drawn to actual scale. Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but should be considered part of the authorization specification where appropriate. In all examples shown and discussed herein, any specific values should be construed as merely illustrative, and not a limitation. Thus, other examples of the exemplary embodiments may have different values. It should be noted that like reference numerals and letters refer to like items in the following figures, and thus once an item is defined in one figure, no further discussion thereof is necessary in subsequent figures.

Example 1:

the embodiment provides a building engineering raise dust controlling means, include:

the shell 1, the lower ends of the front side and the rear side of the shell 1 are provided with observation plates 2;

A partition plate 21 provided in the middle of the inside of the casing 1;

a water storage chamber 22 arranged on the right side inside the casing 1;

The dust falling component 5 is arranged in the water storage cavity 22 and is used for falling dust to the building engineering;

a dust collection chamber 23 provided on the left side inside the housing 1;

The charging components 6 are arranged at the left side and the right side of the shell 1 and are used for charging water into the water storage chamber 22 and the dust collection chamber 23;

the dust collection assembly 3 is arranged in the dust collection chamber 23 and is used for collecting dust raised by construction engineering;

The dust collection assembly 3 includes:

Brackets 31 provided on the front and rear sides of the left side surface of the partition plate 21, the brackets 31 being located inside the dust collection chamber 23;

a negative pressure fan 32 disposed on the bracket 31;

the feed pipe 33 is arranged at the upper end of the negative pressure fan 32;

A feed hopper 34 disposed on the feed pipe 33, the feed hopper 34 passing through and protruding out of the housing 1;

the discharging pipe 35 is arranged at the lower end of the negative pressure fan 32, and the discharging pipe 35 is positioned at the inner bottom of the dust collection chamber 23.

In this technical scheme, dust fall subassembly 5 sets up in water storage cavity 22, and its purpose is to carry out the dust fall to the building engineering through the effect of water, and the dust interact in water and the air makes the dust deposit to the aquatic to reduce the concentration in the air, dust collection cavity 23 sets up in the left side of casing 1 for collect the remaining dust in the aquatic after the dust fall, dust collection subassembly 3 includes support 31, negative pressure fan 32, inlet pipe 33, feeder hopper 34 and discharging pipe 35. The negative pressure fan 32 produces the negative pressure, make the air flow in the dust collection cavity 23, the feeder hopper 34 stretches out through casing 1, make the dust of building engineering can get into dust collection cavity 23, negative pressure fan 32 inhales dust and air mixture through inlet pipe 33, the dust in the air is inhaled behind the negative pressure fan 32, get into dust collection cavity 23, in dust collection cavity 23, the dust is adsorbed and concentrated by the air current that negative pressure fan 32 produced, discharging pipe 35 sets up in the bottom of dust collection cavity 23, it is inside to discharge the dust that negative pressure fan 32 adsorbed through discharging pipe 35, the lower extreme of both sides is equipped with viewing plate 2 around casing 1, be used for viewing device's operating condition and dust collection condition, through this device, the production of raising dust in the building engineering can be through adding water, dust fall and dust collection's process effective control, thereby reduce the influence to the surrounding environment.

In the above technical solution, further, an auxiliary component 4 for assisting the negative pressure fan 32 in sucking dust is disposed in the feed hopper 34.

In any of the above embodiments, further, the auxiliary assembly 4 includes:

the mounting frame 41 is arranged inside the feed hopper 34;

a power source 42 provided on the mounting frame 41;

The fan 43 is disposed on the power source 42, and the fan 43 is located inside the feeding hopper 34.

In this technical scheme, the feeder hopper 34 is a part of the dust collection component 3, it is responsible for guiding the dust in the construction engineering to enter the dust collection chamber 23, the auxiliary component 4 is mainly used for enhancing the dust collection capability of the negative pressure fan 32, so as to collect the dust more effectively, the mounting frame 41 is a part of the auxiliary component 4, which is arranged in the feeder hopper 34, it provides supporting and stabilizing functions, ensure that the auxiliary component 4 is correctly positioned in the feeder hopper 34, the power source 42 is arranged on the mounting frame 41, so as to provide power for the auxiliary component 4, this power source 42 may be an electric motor or other type power device, which is used for driving the operation of the auxiliary component 4, the fan blade 43 is a key part of the auxiliary component 4, which is arranged on the power source 42, and is located in the feeder hopper 34, the fan blade 43 can rotate through the operation of the power source 42, the fan blade 43 generates air current in the rotating process, and pushes the dust in the construction engineering to the suction inlet of the negative pressure fan 32, the dust collection function of the device is enhanced through increasing the fan blade 43, the dust collection function of the device is ensured, the power source 42 and the operation of the fan 43 rotates to generate the air current, thereby better controlling the dust collection efficiency of the fan 32 is improved, and the dust collection efficiency of the dust collection device is better controlled.

In any of the above embodiments, further, the dust settling assembly 5 includes:

The support frame 51 is arranged on the right side of the partition plate 21 and is positioned in the water storage chamber 22;

a biaxial motor 52 provided on the support frame 51;

Mounting grooves 53 formed on both front and rear sides of the housing 1;

the air duct 54 is arranged in the mounting groove 53;

the fans 55 are arranged on the output shafts on two sides of the double-shaft motor 52 and are opposite to the air duct 54;

The filter screen 56 is arranged in the air duct 54;

the fixing frames 57 are arranged on the front side and the rear side of the supporting frame 51;

the water pumps 58 are arranged at the left and right sides of the fixing frame 57;

the water inlet pipe 59 is arranged at the lower end of the water pump 58, and the water inlet pipe 59 is positioned at the lower side in the water storage chamber 22;

The nozzle 510 is disposed at the upper end of the water pump 58 and is located at the rear side of the fan 55.

In the technical scheme, the supporting frame 51 is arranged on the right side of the partition plate 21 and is positioned in the water storage cavity 22, the double-shaft motor 52 is used for providing support for the double-shaft motor 52, the double-shaft motor 52 is arranged on the supporting frame 51, the mounting groove 53 is formed in the front side and the rear side of the shell 1 and is used for accommodating the air duct 54, the air duct 54 is of a structure for guiding air flow, the fan 55 is arranged on output shafts on the two sides of the double-shaft motor 52 and is opposite to the air duct 54, the fan 55 generates air flow through the driving of the double-shaft motor 52, the filter screen 56 is arranged in the air duct 54 and is used for filtering dust in air, only clean air flow is ensured to pass through, the fixing frame 57 is arranged on the front side and the rear side of the supporting frame 51 and is used for providing support for the water pump 58, the water inlet pipe 59 is arranged at the lower end of the water pump 58, the water inlet pipe 59 is positioned at the lower side in the water storage cavity 22 and is used for sucking a water source, the spray head 510 is arranged at the upper end of the water pump 58 and is positioned at the rear side of the fan 55, the water pump 58 is used for sucking the water source through the water inlet pipe 59, and then the spray is sprayed to the air flow generated by the spray head 510.

The double-shaft motor 52 is started to drive the fan 55 to rotate to generate air flow, the filter screen 56 filters dust in the air, the passing air flow is relatively clean, the water pump 58 absorbs water source, the spray head 510 sprays water mist to the air flow generated by the fan 55, the fan 55 guides the air flow with the water mist to a construction area, the water mist acts on the dust in the air to enable the dust to settle, construction dust can be effectively reduced, and air quality is improved.

In any of the above embodiments, further, the feeding assembly 6 includes:

the charging pipes 61 are arranged at the left side and the right side of the shell 1, and the two charging pipes 61 are communicated with the dust collecting chamber 23 and the water storage chamber 22 at the same side;

A screw cap 62 screw-fitted to the filling tube 61.

In this technical solution, by unscrewing the screw cap 62 and then adding a proper amount of water into the feeding tube 61, the water flows from the feeding tube 61 into the water storage chamber 22 and the dust collection chamber 23, and after the feeding is completed, the screw cap 62 is screwed back onto the feeding tube 61.

Example 2:

the present embodiment provides a dust control device for construction engineering, which has the following technical features in addition to the technical scheme of the above embodiment.

In any of the above technical solutions, further, the sewage disposal assembly 7 is further included, and the sewage disposal assembly 7 includes:

A drain pipe 71 arranged at the left lower side of the housing 1, the drain pipe 71 being communicated with the dust collection chamber 23;

a ball valve 72 is provided on the drain pipe 71.

In this technical scheme, when the dust collected in the dust collection chamber 23 is mixed with water, the ball valve 72 is opened, the sewage drain 71 discharges the waste water in the dust collection chamber 23, and after the sewage drain is completed, the ball valve 72 is closed.

In any of the above solutions, further, the mobile device 8 is further included, and the mobile device 8 includes:

A bottom plate 81 provided at the bottom of the housing 1;

the support rods 82 are arranged around the bottom of the bottom plate 81;

a sleeve 83 movably disposed on the support rod 82;

a damper tube 84 disposed between the bottom plate 81 and the sleeve 83;

The universal wheel 85 is arranged at the bottom of the sleeve 83;

the rack 86 is arranged around the bottom of the bottom plate 81;

A servo motor 87 provided on the frame 86;

Bevel gears 88 are arranged on the sleeve 83 and the output shaft of the servo motor 87, and the two bevel gears 88 on the same side are meshed.

In any of the above technical solutions, further, the device further includes a detection assembly 9, and the detection assembly 9 includes:

The monitoring unit 91 is arranged at the top of the shell 1 and is used for monitoring the condition of a construction site, so that the monitoring unit is convenient to move in real time, and the monitoring body is connected with the smart phone;

The control module 92 is electrically connected with the monitoring unit 91, the monitoring unit 91 can monitor the obstacle in the moving process of the device in real time, and send the monitored information to the control module 92 in real time, and the control module 92 controls the servo motor 87 to adjust the moving angle of the universal wheel 85.

In this technical scheme, the bottom plate 81 sets up in casing 1 bottom, bracing piece 82 sets up around the bottom plate 81 bottom, provide structural support, sleeve 83 movable set up on bracing piece 82, can move in the vertical direction, shock-absorbing tube 84 sets up between bottom plate 81 and sleeve 83, be used for absorbing vibrations and alleviate vibration transmission, universal wheel 85 sets up in sleeve 83 bottom, be used for providing the removal and the steering ability of device, frame 86 sets up around bottom plate 81 bottom, provide the position of support and fixed servo motor 87, servo motor 87 sets up on frame 86, bevel gear 88 sets up on sleeve 83 and servo motor 87 output shaft, two bevel gears 88 of homonymy mesh, the meshing rotation of bevel gear 88 makes sleeve 83 realize rotatory under servo motor 87's control, thereby adjust the angle of universal wheel 85, monitor unit 91 sets up in casing 1 top, be used for monitoring the various circumstances in construction site, monitor unit 91 is connected with the smart mobile phone, can realize remote monitoring and control, control module 92 is connected with monitor unit 91 electricity, receive the information that monitor unit 91 sent, monitor unit 91 can monitor the obstacle in the device removal in-process in real time, and send information to monitor module 92 in real-time.

During operation, the monitoring unit 91 monitors the situation of a construction site in real time through being connected with the smart phone, and transmits information to the control module 92, the control module 92 receives the information sent by the monitoring unit 91, analyzes obstacle situations, controls the servo motor 87 to adjust the angle of the universal wheel 85, so that the movable assembly 8 avoids obstacles, the universal wheel 85 of the movable assembly 8 automatically adjusts the direction according to the instruction of the control module 92, the movable assembly can flexibly and efficiently move in the construction site, the aim of effectively controlling dust emission is achieved, and the construction engineering dust emission control device can automatically move and keep away according to site situations through the cooperation of the movable assembly 8 and the detection assembly 9, so that the dust emission situation of the construction site is effectively controlled.

In this technical scheme, when needing to use building engineering raise dust controlling means, at first people push casing 1 to drive bottom plate 81 and pass through universal wheel 85 and remove subaerial, in the removal in-process, monitoring unit 91 monitors the condition of construction site in real time, and transmit information to control module 92, control module 92 receives the information that monitoring unit 91 sent, the analysis obstacle condition, and control servo motor 87 adjusts the angle of universal wheel 85, servo motor 87 drives the gear rotation, two gears mesh for the gear drives sleeve 83 rotation, sleeve 83 drives universal wheel 85 rotation, thereby adjust the angle that universal wheel 85 moved, so that remove the subassembly 8 avoid the barrier, the universal wheel 85 of remove subassembly 8 is according to the instruction automatic adjustment direction of control module 92, ensure that the device can nimble in the construction site, The device moves efficiently to achieve the aim of effectively controlling dust, when the device moves to a position needing dust fall, the screw cap 62 is unscrewed, and a proper amount of water is added into the charging pipe 61, the water flows into the water storage chamber 22 and the dust collecting chamber 23 from the charging pipe 61, after the water storage chamber 22 and the dust falling chamber are added with a proper amount of water, the water passes through the discharging pipe 35, people screw the screw cap 62 back onto the charging pipe 61, then the negative pressure fan 32 is started, the negative pressure fan 32 generates negative pressure, so that dust in construction engineering can enter the feeding pipe 33 from the feeding hopper 34, the negative pressure fan 32 sucks in a mixture of dust and air through the feeding pipe 33, the dust in the air is sucked into the water bottom of the dust collecting chamber 23 through the discharging pipe 35, so that the dust is mixed with the water, the lower ends of the front side and the rear side of the shell 1 are provided with the observation plates 2, the device is used for observing the working state and dust collection condition of the device, meanwhile, the power source 42 is started, the power source 42 provides power to drive the fan blades 43 to rotate, the dust collection capability of the negative pressure fan 32 is enhanced, dust is collected more effectively, and therefore dust collection efficiency of the construction dust control device is improved, then the double-shaft motor 52 is started, output shafts on two sides of the double-shaft motor 52 drive the fan 55 to rotate, air flow is generated, the filter screen 56 filters dust in air, the passing air flow is ensured to be relatively clean, the water pump 58 sucks a water source, water mist is sprayed to the air flow generated by the fan 55 through the spray head 510, the fan 55 guides the air flow with the water mist to a construction area, the water mist and the dust in the air act, so that the dust is settled, the construction dust can be effectively reduced, the air quality is improved, after the dust fall work is finished, the double-shaft motor 52 is turned off, A water pump 58, The power source 42 and the negative pressure fan 32 are rotated to open the ball valve 72, the blow-off pipe 71 discharges the waste water in the dust collection chamber 23, after the blow-off is completed, the ball valve 72 is closed, so that dust collection can be carried out on a construction site, the sucked dust is mixed with water, the collected dust is effectively prevented from drifting, the dust and the water mixture are discharged, meanwhile, the fan 55 guides the airflow with water mist to a construction engineering area, the water mist acts on the dust in the air, the dust is settled, the dust in the construction engineering can be effectively reduced, the air quality is improved, the influence on the surrounding environment is reduced, the device is conveniently moved to a position needing dust fall, the device is convenient to move, the device is convenient to use, the situation of the construction site can be monitored in real time, the obstacle situation is analyzed, the servo motor 87 is controlled to adjust the angle of the universal wheel 85, the moving assembly 8 avoids obstacles, and the device can be flexibly and still in the construction site, and the dust collector moves efficiently so as to achieve the aim of effectively controlling dust.

The embodiments of the present application have been described above with reference to the accompanying drawings, in which the embodiments of the present application and features of the embodiments may be combined with each other without conflict, the present application is not limited to the above-described embodiments, which are merely illustrative, not restrictive, of the present application, and many forms may be made by those of ordinary skill in the art without departing from the spirit of the present application and the scope of the claims, which are protected by the present application.

Claims (8)

1. A construction engineering dust control device, characterized by comprising:

The device comprises a shell (1), wherein the lower ends of the front side and the rear side of the shell (1) are respectively provided with an observation plate (2);

a separator (21) provided in the middle of the inside of the casing (1);

The water storage chamber (22) is arranged on the right side inside the shell (1);

The dust falling component (5) is arranged in the water storage cavity (22) and is used for falling dust to the building engineering;

A dust collection chamber (23) provided on the left side inside the housing (1);

The charging components (6) are arranged at the left side and the right side of the shell (1) and are used for charging water into the water storage chamber (22) and the dust collecting chamber (23);

The dust collection assembly (3) is arranged in the dust collection chamber (23) and is used for collecting dust raised by a building engineering;

The dust collection assembly (3) comprises:

Brackets (31) arranged on the front and rear sides of the left side surface of the partition plate (21), wherein the brackets (31) are positioned in the dust collection chamber (23);

A negative pressure fan (32) arranged on the bracket (31);

The feeding pipe (33) is arranged at the upper end of the negative pressure fan (32);

A feed hopper (34) arranged on the feed pipe (33), wherein the feed hopper (34) penetrates through and extends out of the shell (1);

The discharging pipe (35) is arranged at the lower end of the negative pressure fan (32), and the discharging pipe (35) is positioned at the inner bottom of the dust collection cavity (23).

2. The construction dust control device according to claim 1, wherein an auxiliary assembly (4) for assisting the negative pressure fan (32) in dust collection is arranged in the feed hopper (34).

3. A construction dust control device according to claim 2, characterized in that the auxiliary assembly (4) comprises:

the mounting frame (41) is arranged inside the feed hopper (34);

A power source (42) arranged on the mounting frame (41);

The fan blade (43) is arranged on the power source (42), and the fan blade (43) is positioned in the feed hopper (34).

4. A construction dust control device according to claim 1, characterized in that the dust settling assembly (5) comprises:

The support frame (51) is arranged on the right side of the partition board (21) and is positioned in the storage Shui Qiangshi (22);

a biaxial motor (52) provided on the support frame (51);

Mounting grooves (53) which are arranged on the front side and the rear side of the shell (1);

the air duct (54) is arranged in the mounting groove (53);

The fans (55) are arranged on output shafts on two sides of the double-shaft motor (52) and are opposite to the air duct (54);

The filter screen (56) is arranged in the air duct (54);

The fixing frames (57) are arranged on the front side and the rear side of the supporting frame (51);

The water pumps (58) are arranged at the left side and the right side of the fixing frame (57);

the water inlet pipe (59) is arranged at the lower end of the water pump (58), and the water inlet pipe (59) is positioned at the inner lower side of the water storage chamber (22);

And the spray head (510) is arranged at the upper end of the water pump (58) and is positioned at the rear side of the fan (55).

5. A construction dust control device according to claim 1, wherein the charging assembly (6) comprises:

The charging pipes (61) are arranged at the left side and the right side of the shell (1), and the two charging pipes (61) are communicated with the dust collection chamber (23) and the water storage chamber (22) at the same side;

And a screw cap (62) which is screw-mounted on the feeding tube (61).

6. A construction dust control device according to claim 1, further comprising a blowdown assembly (7), the blowdown assembly (7) comprising:

A drain pipe (71) arranged at the left lower side of the shell (1), wherein the drain pipe (71) is communicated with the dust collection chamber (23);

and a ball valve (72) arranged on the blow-down pipe (71).

7. A construction dust control device according to claim 1, further comprising a moving assembly (8), the moving assembly (8) comprising:

a bottom plate (81) arranged at the bottom of the shell (1);

The support rods (82) are arranged around the bottom of the bottom plate (81);

a sleeve (83) movably arranged on the support rod (82);

A damper pipe (84) provided between the bottom plate (81) and the sleeve (83);

The universal wheel (85) is arranged at the bottom of the sleeve (83);

the rack (86) is arranged around the bottom of the bottom plate (81);

a servo motor (87) provided on the frame (86);

And bevel gears (88) which are arranged on the output shafts of the sleeve (83) and the servo motor (87), and the two bevel gears (88) on the same side are meshed.

8. The construction dust control apparatus according to claim 7, further comprising a detection assembly (9), the detection assembly (9) comprising:

the monitoring unit (91) is arranged at the top of the shell (1) and used for monitoring the condition of a construction site and facilitating real-time movement, and the monitoring unit (91) is connected with the intelligent mobile phone;

The control module (92) is electrically connected with the monitoring unit (91), the monitoring unit (91) can monitor the obstacle in the moving process of the device in real time, and sends the monitored information to the control module (92) in real time, and the control module (92) controls the servo motor (87) to adjust the moving angle of the universal wheel (85).