CN113694657B - Green building construction's fountain presses down dirt water saving fixtures - Google Patents

Abstract

The invention discloses a spraying dust suppression water-saving device for green building construction, which comprises: a driving seat; the lower guide wheel can be symmetrically arranged at the four corners of the lower end surface of the driving seat in a relatively rotating way; the adjusting bracket is vertically embedded in the middle of the upper end face of the driving seat; the drainage purification assembly is transversely erected on the adjusting bracket and is used for internally discharging ambient air; the dust-settling spraying assembly is transversely erected on the adjusting bracket and is arranged opposite to the drainage purification assembly, and the dust-settling spraying assembly is used for atomizing ambient air for settling dust; and the storage cylinder is arranged in the driving seat and positioned right below the adjusting bracket, the storage cylinder is divided into two cavity positions from left to right through a partition plate, and each cavity position is correspondingly communicated with the drainage purification assembly and the dust-settling spraying assembly.

Description

Green building construction's fountain presses down dirt water saving fixtures

Technical Field

The invention belongs to the technical field of auxiliary equipment for building construction, and particularly relates to a spraying type dust suppression water-saving device for green building construction.

Background

At present, along with the progress of science and technology, green building also progressively obtains the wide application, and green building aims at resources are saved, the environmental protection, the pollution abatement, provide healthy for people, and is suitable for use, efficient usage space, furthest realizes people and nature harmonious intergrowth high quality building, but green building is at the in-process of construction, inevitable production a large amount of smoke and dust, the smoke and dust is the polluted environment not only, and cause very big threat to constructor's health, current construction site's dust fall equipment is mostly the dust fall car, however only can realize carrying out the humidification in order to reach the dust fall purpose to the air, nevertheless in building construction middle period, its dust concentration is relatively higher, dust fall car dust fall effect is lower this moment, unable quick effectual dust suppression handles. Therefore, the technical personnel in the field provide a spraying type dust suppression water saving device for green building construction to solve the problems in the background technology.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a green building construction's fountain presses down dirt water saving fixtures, it includes:

a driving seat;

the lower guide wheel can be symmetrically arranged at the four corners of the lower end surface of the driving seat in a relatively rotating way;

the adjusting bracket is vertically embedded in the middle of the upper end face of the driving seat;

the drainage purification assembly is transversely erected on the adjusting bracket and is used for internally discharging ambient air;

the dust-settling spraying assembly is transversely erected on the adjusting bracket and is arranged opposite to the drainage purification assembly, and the dust-settling spraying assembly is used for atomizing ambient air for settling dust; and

and the storage cylinder is arranged in the driving seat and is positioned right below the adjusting bracket, the storage cylinder is divided into two cavity positions left and right through a partition plate, and each cavity position is correspondingly communicated with the drainage purification assembly and the dust-falling spraying assembly.

Further, preferably, the adjusting bracket includes:

the rotary base is arranged in the middle of the upper end face of the driving seat in a relatively rotatable manner through a bearing, an external motor is mounted on the driving seat, the output end of the external motor is connected with the rotary base through a gear meshing effect for transmission, and the upper end of the storage cylinder is connected with the rotary base;

the sliding shaft tube is vertically arranged in the rotating base in a relatively sliding mode, and the two sides of the sliding shaft tube are symmetrically provided with transfer levers;

the side brackets are symmetrically arranged on the rotating base and positioned at two sides of the sliding shaft tube, and the side brackets are sleeved on the connecting bar in a sliding manner;

the drainage purification assembly and the dust-fall spraying assembly are respectively in rotary connection with the sliding shaft tube through the outer hinge shaft; and

and the connecting guide frame is hinged to each drainage purification assembly and the dust-settling spraying assembly, a hydraulic telescopic rod is arranged outside the sliding shaft pipe, and the output end of the hydraulic telescopic rod is hinged to one end of the connecting guide frame.

Further, preferably, the drainage purification assembly includes:

the outer tube seat I is constructed into a tubular structure with a trapezoidal cross section;

the inner mesh enclosure is coaxially fixed in the outer tube base I, and a plurality of drainage fan blades are rotationally arranged on the inner circumference of the outer tube base I;

the inner exhaust pipe is transversely arranged in the outer pipe seat I, and one end of the inner exhaust pipe is connected and fixed with the inner net cover;

the flow guide vane plates are arranged in a circumferential array, each flow guide vane plate is in an inverted L-shaped structure, and a plurality of exhaust hole positions are arranged on the inner tube;

the shaft joint seat is coaxially and relatively slidably arranged in the inner exhaust pipe, a telescopic guide rod is relatively rotatably arranged on the shaft joint seat through a bearing, one end of the telescopic guide rod is connected with the inner exhaust pipe, a driving motor is arranged on the inner exhaust pipe, and the output end of the driving motor is fixedly connected with the telescopic guide rod;

the conveying pipe is vertically arranged in the sliding shaft pipe, one end of the conveying pipe is communicated with the inner calandria, and the other end of the conveying pipe is connected with the storage cylinder; and

the pressurizing blades are arranged on the conveying pipe in a relatively rotating and serial connection mode.

Further, preferably, the shaft connecting seat is connected with the connecting guide frame through an outer guide rod for transmission, and an inner guide sleeve is coaxially arranged in the inner row pipe;

and the telescopic guide rod is coaxially provided with a limiting shaft piece in the inner tube bank, and the limiting shaft piece and the inner wall sleeve of the inner guide are both constructed into corrugated sections.

Further, preferably, a discharge cavity is arranged in the storage cylinder, one end of the discharge cavity is communicated with the conveying pipe, a filter layer cover is coaxially arranged in the discharge cavity, the upper end of the discharge cavity is communicated with an outer discharge pipe, and one end of the outer discharge pipe is communicated with the dust fall spraying assembly;

and a dust collecting opening is arranged below the discharge cavity.

Further, preferably, the dustfall spray assembly includes:

the outer pipe seat II has the same structure as the outer pipe seat I;

the atomizing nozzle is transversely and coaxially fixed in the second outer tube seat;

the water supply pipe is vertically arranged in the sliding shaft pipe, one end of the water supply pipe is communicated with the atomizing spray head, a cleaning water source is arranged in a cavity position on one side of the storage cylinder, and the other end of the water supply pipe is communicated with the storage cylinder through a liquid pump; and

the drainage guide devices are arranged in a circumferential array, the drainage guide devices are uniformly arranged in the second outer pipe seat, one end of the outer pipe is communicated with each drainage guide device, and the inner pressurizing pieces are connected in the outer pipe in series.

Further, preferably, the drainage guide device includes:

the air flow nozzles are uniformly arranged, each air flow nozzle is rotatably connected in the second outer tube seat, and one end of each air flow nozzle is communicated with the outer discharge tube;

the transmission inner rod is transversely connected between the airflow nozzles;

the positioning shaft bracket is hinged with one end of each transmission inner rod; and

the inner telescopic supporting rods are arranged in a circumferential array, and one end of each inner telescopic supporting rod is hinged with the positioning shaft bracket.

Further, preferably, the inner telescopic struts are in an equidistant telescopic or proportional stepped telescopic state.

Compared with the prior art, the invention has the beneficial effects that:

according to the dust suppression device, the adjusting bracket is vertically arranged on the driving seat, the dust suppression spraying assembly and the drainage guide device are symmetrically arranged on two sides of the upper end of the adjusting bracket, surrounding environment air flow is absorbed and subjected to dust suppression through the drainage guide device, so that the environment high-dust-concentration air flow can be reduced to be in a low-concentration state, and then the dust suppression spraying assembly is used for spraying and reducing the environment high-dust-concentration air flow, so that dust particles in the air are polymerized, the environment air flow is humidified, the dust suppression work is realized, particularly, the environment air treatment in building construction is realized, the environment dust concentration can be obviously reduced, and the influence on the ecological environment is maximally reduced.

Drawings

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

FIG. 2 is a schematic view of the structure of the adjusting bracket of the present invention;

FIG. 3 is a schematic view of the drainage purification assembly of the present invention;

FIG. 4 is a schematic view of a partial structure of a storage cylinder according to the present invention;

FIG. 5 is a schematic diagram of a dustfall spray assembly according to the present invention;

FIG. 6 is a schematic view of the drainage guide of the present invention;

in the figure: 1 driving seat, 2 storage cylinders, 201 discharging cavity parts, 202 outer discharging pipes, 203 filter layer covers, 204 dust collecting openings, 3 adjusting supports, 301 rotating bases, 302 sliding shaft pipes, 303 side supporting frames, 304 transmitting and receiving bars, 305 outer hinge shafts, 306 connecting and guiding frames, 4 discharging purification components, 401 outer pipe seat I, 402 inner net covers, 403 discharging fan blades, 404 inner discharging pipes, 405 guiding blade plates, 406 telescopic guide rods, 407 driving motors, 408 shaft connecting seats, 409 conveying pipes, 410 pressurizing blades, 5 dust-fall spraying components, 501 outer pipe seat II, 502 atomizing nozzles, 503 water supplying pipes, 504 liquid pumping pumps, 505 inner pressurizing pieces, 6 discharging guiding devices, 601 air flow nozzles, 60 transmission inner rods, 603 positioning shaft frames and 604 inner telescopic supporting rods.

Detailed Description

Referring to fig. 1, in an embodiment of the present invention, a spray type dust suppression water saving device for green building construction includes:

a drive base 1;

the lower guide wheels can be symmetrically arranged at the four corners of the lower end surface of the driving seat 1 in a relatively rotating manner;

the adjusting bracket 3 is vertically embedded in the middle of the upper end face of the driving seat 1;

a drainage purification assembly 4 transversely mounted on the adjusting bracket 3, wherein the drainage purification assembly 4 is used for internally discharging ambient air;

the dust fall spraying assembly 5 is transversely erected on the adjusting bracket 3 and is arranged opposite to the drainage purification assembly 4, and the dust fall spraying assembly 5 is used for atomizing ambient air for dust fall; and

the storage cylinder 2 is arranged in the driving seat 1 and located right below the adjusting bracket 3, the storage cylinder 2 is divided into two cavity positions left and right through a partition plate, and each cavity position is correspondingly communicated with the drainage purification assembly 4 and the dust fall spraying assembly 5.

In this embodiment, the adjusting bracket 3 includes:

the rotary base 301 is arranged in the middle of the upper end face of the driving seat 1 in a relatively rotatable manner through a bearing, an external motor (not shown in the figure) is mounted on the driving seat 1, the output end of the external motor is connected with the rotary base 301 through a gear meshing effect for transmission, and the upper end of the storage barrel 2 is connected with the rotary base 301;

the sliding shaft tube 302 is vertically arranged in the rotating base 301 in a relatively sliding manner, and the transmission and receiving bars 304 are symmetrically arranged on two sides of the sliding shaft tube 302;

the side brackets 303 are symmetrically arranged on the rotating base 301 and positioned on two sides of the sliding axle tube 302, and the side brackets 303 are slidably sleeved on the connecting rods 304;

the outer hinge shafts 305 are symmetrically arranged at one end of the sliding shaft tube 302, and the drainage purification assembly 4 and the dustfall spray assembly 5 are respectively and rotatably connected with the sliding shaft tube 302 through the outer hinge shafts 305; and

the connecting guide frame 306 is hinged to each drainage purification assembly 4 and the dust-fall spraying assembly 5, a hydraulic telescopic rod (not shown in the figure) is arranged outside the sliding shaft tube 302, the output end of the hydraulic telescopic rod is hinged to one end of the connecting guide frame 306, the dust suppression surface area range of the drainage purification assembly and the dust-fall spraying assembly is controlled through the continuous rotation driving action of an external motor, and meanwhile, the telescopic action of the hydraulic telescopic rod can effectively synchronously adjust the horizontal plane working angles of the drainage purification assembly and the dust-fall spraying assembly, so that the dust suppression work can be performed on the environment high-altitude point position.

As a preferred embodiment, the drainage purification assembly 4 comprises:

the first outer tube seat 401 is constructed into a tubular structure with a trapezoidal cross section;

the inner mesh enclosure 402 is coaxially fixed in the first outer tube seat 401, and a plurality of drainage fan blades 403 are rotationally arranged on the inner circumference of the first outer tube seat 401; so that the external air flow can enter the outer tube seat through the inner net cover preferentially,

the inner discharge pipe 404 is transversely arranged in the outer pipe seat I401, and one end of the inner discharge pipe 404 is connected and fixed with the inner mesh enclosure 402;

the flow guide vane plates 405 are arranged in a circumferential array, each flow guide vane plate 405 is in an inverted L-shaped structure, and a plurality of exhaust hole positions are arranged on the inner exhaust pipe 404;

the shaft connecting seat 408 is coaxially and relatively slidably arranged in the inner discharge pipe 404, a telescopic guide rod 406 is relatively rotatably arranged on the shaft connecting seat 408 through a bearing, one end of the telescopic guide rod 406 is connected with the inner discharge pipe 404, a driving motor 407 is arranged on the inner discharge pipe 404, and the output end of the driving motor 407 is fixedly connected with the telescopic guide rod 406;

a delivery pipe 409 vertically arranged in the sliding shaft pipe 302, wherein one end of the delivery pipe 409 is communicated with the inner discharge pipe 404, and the other end of the delivery pipe 409 is connected with the storage cylinder 2; and

the pressurizing blades 410 are arranged on the conveying pipe 409 in series in a relatively rotatable manner.

In this embodiment, the shaft connecting seat 408 is connected with the connecting guide frame 306 through an outer guide rod for transmission, and an inner guide sleeve is coaxially arranged in the inner discharge pipe 404;

the telescopic guide rod 406 is coaxially provided with a limiting shaft part in the inner discharge pipe 404, and the limiting shaft part and the inner wall sleeve of the inner guide sleeve are both configured into corrugated sections, so that when an outer pipe seat is rotated and deflected under the telescopic action of the hydraulic telescopic rod, the shaft joint seat can synchronously perform transverse relative sliding adjustment, so that the limiting shaft part can relatively slide out or stretch into the inner guide sleeve, the air flow rate can be controlled through the corrugated sections, particularly, the dust concentration is relatively high at middle and low space positions, a sufficient drainage gap is reserved between the limiting shaft part and the inner guide sleeve, the discharge rate is improved, and at high space positions, the external air flow flows relatively fast, and the limiting shaft part and the corrugated sections of the inner guide sleeve are mutually matched to form negative pressure discharge to prevent the negative pressure discharge from generating a backflow phenomenon.

In this embodiment, a discharge cavity 201 is arranged in the storage cylinder 2, one end of the discharge cavity 201 is communicated with the delivery pipe 409, a filter layer cover 203 is coaxially arranged in the discharge cavity 201, the upper end of the discharge cavity 201 is communicated with an outer discharge pipe 202, and one end of the outer discharge pipe 202 is communicated with the dustfall spraying assembly 5;

a dust collecting opening 204 is arranged below the discharge cavity 201.

In this embodiment, the dustfall spray assembly 5 includes:

the second outer tube seat 501 is the same as the first outer tube seat 401 in structure;

the atomizing nozzle 502 is transversely and coaxially fixed in the second outer pipe seat 501;

a water supply pipe 503 vertically disposed in the sliding shaft tube 302, wherein one end of the water supply pipe 503 is communicated with the atomizing nozzle 502, a clean water source is disposed in one cavity of the storage cylinder 2, and the other end of the water supply pipe is communicated with the storage cylinder 2 through a liquid pump 504; and

the drainage guide devices 6 are circumferentially arrayed in multiple groups, the drainage guide devices 6 are uniformly arranged in the second outer tube seat 501, one end of the outer tube 202 is communicated with each drainage guide device 6, and the inner pressurizing piece 505 is connected in series in the outer tube 202.

As a preferred embodiment, the drainage guide 6 comprises:

a plurality of airflow nozzles 601 are uniformly arranged, each airflow nozzle 601 is rotatably connected in the second outer pipe seat 501, and one end of each airflow nozzle 601 is communicated with the outer discharge pipe 202;

a transmission inner rod 602 transversely connected between the airflow nozzles 601;

a positioning shaft bracket 603 hinged with one end of each transmission inner rod 602; and

the inner telescopic supporting rods 604 are arranged in a circumferential array, one end of each inner telescopic supporting rod 604 is hinged to the positioning shaft bracket 603, and the inner telescopic supporting rods control the airflow sprayers to perform inner concentrated auxiliary jet flow or outer dispersed auxiliary jet flow through the telescopic adjustment effect of the inner telescopic supporting rods, so that the atomizing sprayers can be in multiple spraying states and are convenient to adapt to building construction occasions with different environmental dust concentrations.

In this embodiment, be the equidistant flexible or the cascaded shrink state of equal proportion between the interior telescopic strut 604 for when interior telescopic strut becomes the equidistant flexible, each atomizer can be in same injection concentration point location, can effectively concentrate water smoke and outwards diffuse, and when the cascaded shrink of inner telescopic strut proportion, each air current nozzle that is arranged in outer tube socket two this moment mutually supports and is the spiral and staggers the form, makes water smoke can carry out the whirl diffusion, and improves the range of spouting.

Specifically, in the dust suppression treatment of green building construction, the driving seat driving device main body transversely runs, at the moment, the rotating base can be in a rotating state all the time, so that the dust suppression spraying assembly and the drainage purification assembly can perform dust suppression work on ambient air, and meanwhile, the hydraulic telescopic rod gradually stretches out, so that the dust suppression spraying assembly and the drainage purification assembly can deflect from top to bottom relatively, high-level air flow in the environment is suppressed preferentially, when dust suppression is performed, the drainage purification assembly can carry out internal discharge purification on the ambient air preferentially, so that dust particles doped in the air are effectively filtered, and meanwhile, flow-assisting spraying is provided for the dust suppression spraying assembly, so that the atomizing nozzle can timely perform internal concentration or external dispersion on water mist to prevent the water mist from being sprayed into the ambient air, and the dust suppression effect is improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (5)

1. The utility model provides a green building construction's fountain presses down dirt water saving fixtures which characterized in that: it comprises the following steps:

a drive seat (1);

the lower guide wheel can be symmetrically arranged at the four corners of the lower end surface of the driving seat (1) in a relatively rotating way;

the adjusting bracket (3) is vertically embedded in the middle of the upper end face of the driving seat (1);

the drainage purification assembly (4) is transversely erected on the adjusting bracket (3), and the drainage purification assembly (4) is used for internally discharging ambient air;

the dust fall spraying assembly (5) is transversely erected on the adjusting bracket (3) and is arranged opposite to the drainage purification assembly (4), and the dust fall spraying assembly (5) is used for atomizing ambient air for dust fall; and

the storage cylinder (2) is arranged in the driving seat (1) and is positioned right below the adjusting bracket (3), the storage cylinder (2) is divided into two cavity positions left and right through a partition plate, and each cavity position is correspondingly communicated with the drainage purification assembly (4) and the dustfall spraying assembly (5);

the drainage purification assembly (4) comprises:

the outer tube seat I (401) is constructed into a tubular structure with a trapezoidal cross section;

the inner mesh enclosure (402) is coaxially fixed in the first outer tube seat (401), and a plurality of drainage fan blades (403) are rotationally arranged on the inner circumference of the first outer tube seat (401);

the inner discharge pipe (404) is transversely arranged in the outer pipe seat I (401), and one end of the inner discharge pipe (404) is connected and fixed with the inner mesh enclosure (402);

the flow guide vane plates (405) are arranged in a circumferential array, each flow guide vane plate (405) is in an inverted L-shaped structure, and a plurality of exhaust hole positions are arranged on the inner exhaust pipe (404);

the shaft connecting seat (408) is coaxially and relatively slidably arranged in the inner discharge pipe (404), a telescopic guide rod (406) is relatively rotatably arranged on the shaft connecting seat (408) through a bearing, one end of the telescopic guide rod (406) is connected with the inner discharge pipe (404), a driving motor (407) is arranged on the inner discharge pipe (404), and the output end of the driving motor (407) is connected and fixed with the telescopic guide rod (406);

the adjusting bracket (3) comprises:

the rotary base (301) is arranged in the middle of the upper end face of the driving seat (1) in a relatively rotating mode through a bearing, an external motor is installed on the driving seat (1), the output end of the external motor is connected with the rotary base (301) through a gear meshing effect for transmission, and the upper end of the storage barrel (2) is connected with the rotary base (301);

the sliding shaft tube (302) is vertically arranged in the rotating base (301) in a relatively sliding mode, and the two sides of the sliding shaft tube (302) are symmetrically provided with transfer and connection bars (304);

the side brackets (303) are symmetrically arranged on the rotating base (301) and positioned at two sides of the sliding shaft tube (302), and the side brackets (303) are sleeved on the transfer bar (304) in a sliding manner;

the outer hinge shafts (305) are symmetrically arranged at one end of the sliding shaft tube (302), and the drainage purification assembly (4) and the dust fall spraying assembly (5) are respectively in rotary connection with the sliding shaft tube (302) through the outer hinge shafts (305); and

the connecting guide frame (306) is hinged to each drainage purification assembly (4) and the dust-settling spraying assembly (5), a hydraulic telescopic rod is arranged outside the sliding shaft tube (302), and the output end of the hydraulic telescopic rod is hinged to one end of the connecting guide frame (306);

the conveying pipe (409) is vertically arranged in the sliding shaft pipe (302), one end of the conveying pipe (409) is communicated with the inner discharge pipe (404), and the other end of the conveying pipe is connected with the storage cylinder (2); and

the pressurizing blades (410) are arranged on the conveying pipe (409) in a relatively rotating and serial manner;

the shaft connecting seat (408) is connected with the connecting guide frame (306) through an outer guide rod for transmission, and an inner guide sleeve is coaxially arranged in the inner discharge pipe (404);

and a limiting shaft part is coaxially arranged in the inner discharge pipe (404) on the telescopic guide rod (406), and the limiting shaft part and the inner wall sleeve of the inner guide are both constructed into corrugated sections.

2. The spraying type dust suppression water saving device for green building construction according to claim 1, characterized in that: a discharge cavity part (201) is arranged in the storage cylinder (2), one end of the discharge cavity part (201) is communicated with the conveying pipe (409), a filter layer cover (203) is coaxially arranged in the discharge cavity part (201), the upper end of the discharge cavity part (201) is communicated with an outer discharge pipe (202), and one end of the outer discharge pipe (202) is communicated with the dust fall spraying assembly (5);

a dust collecting opening (204) is arranged below the discharge cavity piece (201).

3. The spray type dust suppression and water saving device for green building construction according to claim 2, characterized in that: the dustfall spray assembly (5) comprises:

the outer tube seat II (501) is the same as the outer tube seat I (401) in structure;

the atomizing nozzle (502) is transversely and coaxially fixed in the second outer pipe seat (501);

the water supply pipe (503) is vertically arranged in the sliding shaft pipe (302), one end of the water supply pipe (503) is communicated with the atomizing spray head (502), a clean water source is arranged in a cavity position on one side of the storage cylinder (2), and the other end of the water supply pipe is communicated with the storage cylinder (2) through a liquid pump (504); and

the drainage guide devices (6) are multiple groups arranged in a circumferential array, the drainage guide devices (6) are uniformly arranged in the second outer tube seat (501), one end of the outer tube (202) is communicated with each drainage guide device (6), and the inner pressurizing pieces (505) are connected in series in the outer tube (202).

4. The spraying type dust suppression water saving device for green building construction according to claim 3, characterized in that: the drainage guide (6) comprises:

the airflow nozzles (601) are uniformly arranged, each airflow nozzle (601) is rotatably connected into the second outer pipe seat (501), and one end of each airflow nozzle (601) is communicated with the outer discharge pipe (202);

the transmission inner rod (602) is transversely connected between the airflow nozzles (601);

the positioning shaft bracket (603) is hinged with one end of each transmission inner rod (602); and

the number of the inner telescopic struts (604) is a plurality of inner telescopic struts arranged in a circumferential array, and one end of each inner telescopic strut (604) is hinged with the positioning shaft bracket (603).

5. The spraying type dust suppression water saving device for green building construction according to claim 4, characterized in that: the inner telescopic struts (604) are in an equidistant telescopic or proportional stepped contraction state.

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