CN216630173U - Civil engineering job site dust collector - Google Patents

Abstract

The utility model discloses a civil engineering construction site dust removal device, which relates to a dust removal device and comprises a probe arm vehicle as a motion carrier, a water mist disc arranged on the probe arm vehicle and a pump station device arranged between the water mist disc and the probe arm vehicle, wherein the probe arm vehicle comprises a motor chassis, the probe arm vehicle is also provided with a first accessory device, the pump station device comprises a water tank, a water pump and an air compressor, the water tank is arranged on the motor chassis and is connected with the water pump through a dry pipe, the water pump and the air compressor are both arranged below the motor chassis, and the air compressor is connected on the water mist disc; the length and angle adjustable extension arm support is arranged, and the water mist disc is directly placed in flying overhead dust, so that the dust removal effect is improved; through the setting of the strip nozzles, the column type high-pressure airflow can disperse the surface type high-pressure water flow, and the flowing performance of the water mist is improved through the arrangement of the included angle.

Description

Civil engineering job site dust collector

Technical Field

The utility model relates to a dust removal device, in particular to a dust removal device for a civil engineering construction site.

Background

Civil engineering refers to the applied materials, equipment, the technical activities of surveying, designing, constructing, maintaining, repairing and the like, and the objects of engineering construction, namely, various engineering facilities which are constructed on the ground or underground or on land and directly or indirectly serve human life, production, military and scientific research, such as houses, roads, railways, pipelines, tunnels, bridges, canals, dams, harbors, power stations, airports, ocean platforms, water supply and drainage, protection engineering and the like, and civil engineering refers to the engineering which is carried out for newly building, reconstructing or expanding various engineering buildings, structures, related supporting facilities and the like besides house buildings, and the engineering entities which are completed by various technical works such as civil engineering, planning, designing, constructing, installing, maintaining and the like, and the dust flying in elevation is generated at the construction site, therefore, the dust removing device for the civil engineering construction site is an important civil engineering device, the dust collecting pipes are used in the existing dust removing device for the civil engineering construction site, the dust collecting operation area is influenced due to the limitation of the caliber of the dust collecting pipes, and the dust collecting operation efficiency is influenced due to the limitation of the volume of the dust collecting pipes and the matching parts, and only the dust collecting pipes and the matching parts can be placed in a place with a certain distance from the civil engineering construction site.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a civil engineering construction site dust removal device to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a civil engineering job site dust collector, includes as the probe arm car of motion carrier, sets up the water smoke dish on the probe arm car and sets up the pump station device between water smoke dish and probe arm car, the probe arm car includes motor-driven chassis, still be equipped with first annex device on the probe arm car, first annex device is including rotating wheel and hoist engine, the pump station device includes water tank, water pump and air compressor machine, the water tank is installed on motor-driven chassis and is connected with the water pump through the high-pressure pipe, water pump and air compressor machine are all installed in motor-driven chassis below, the air compressor machine is connected on the water smoke dish.

Preferably, the arm-probing vehicle comprises a motor-driven chassis, a front stand column, a cross beam, a telescopic arm, a bracket, a swing telescopic cylinder, a rear stand column, a first gear, a second gear, a driving motor 0 and an adjusting telescopic cylinder, wherein the front stand column and the rear stand column are respectively arranged at the front end and the rear end of the motor-driven chassis, the rear stand column is respectively provided with the bracket and the first gear, the bracket is provided with the telescopic arm and the driving motor 0, the cross beam is arranged between the telescopic arm and the front stand column, the upper part and the lower part of the cross beam are respectively provided with a rotating wheel and a water mist disc, the cross beam and the water mist disc are connected through the adjusting telescopic cylinder, the swing telescopic cylinder is arranged between the telescopic arm and the bracket, the output shaft of the driving motor 0 is provided with the second gear, the first gear is meshed with the second gear, and the tail end of the telescopic arm is provided with a winch.

Preferably, the bracket comprises a seat part, a shaft head part and a first ear seat part, a through hole is arranged on the side surface of the seat part, the shaft head part is connected to the middle position below the seat part, the first ear seat part is connected to the tail end below the seat part and hinged to the lower end of the swing telescopic cylinder, and the shaft head part is connected to the inside of the rear upright post.

Preferably, the tail end of the telescopic arm is connected to the output shaft of the swing telescopic cylinder through a second lug seat part, and the second lug seat part is fixed at the tail end of the telescopic arm.

Preferably, the crossbeam includes roof beam portion, third ear seat portion and fourth ear seat portion, be equipped with the fork mouth body in the roof beam portion, the below outer end at the roof beam portion is connected to third ear seat portion, fourth ear seat portion connects the top at the roof beam portion, the one end of roof beam portion is connected at preceding stand top, fork mouth body coupling is on the output shaft of telescopic boom, third ear seat portion articulates on the water smoke dish, the top and the running wheel of fourth ear seat portion are connected, it articulates on the fork mouth body to adjust the telescoping cylinder.

Preferably, the water mist disk comprises a disk part, a fifth lug seat part, a sixth lug seat part, a first side water spraying block part, a gas spraying block part, a middle water spraying block part and a second side water spraying block part, wherein the inner side surface of the first side water spraying block part, the side surface of the middle water spraying block part and the inner side surface of the second side water spraying block part are respectively provided with a diagonal duct body, the outer end surface of the gas spraying block part is provided with a linear duct body, the two ends of the disk part are respectively provided with the first side water spraying block part and the second side water spraying block part, the middle position of the disk part is provided with the middle water spraying block part, the gas spraying block parts are symmetrically arranged at the two sides of the middle water spraying block part, the middle position of one side of the disk part is connected with the fifth lug seat part, the other side of the disk part is connected with the two symmetrically arranged sixth lug seat parts, the fifth lug seat part is connected on a cross beam through a pin shaft, and the sixth lug seat part is connected on the telescopic adjusting cylinder through a pin shaft, the first side water spraying block part, the middle water spraying block part and the second side water spraying block part are connected to a water pump through high-pressure pipes, the air spraying block part is connected to an air compressor, and an included angle between the central line of the oblique line hole body and the horizontal plane of the air spraying block part is set to be 65-82 degrees.

Preferably, the rotating wheel is a disk-shaped body with double annular grooves on the periphery, the rotating wheel is rotatably connected with the cross beam through a pin shaft, one annular groove of the rotating wheel is connected with a high-pressure pipe between the water pump and the water mist disk, the other annular groove of the rotating wheel is connected with a high-pressure pipe between the air compressor and the water mist disk, the winch is installed above the tail end of the telescopic arm, and a winding drum of the winch is respectively connected with the high-pressure pipe between the water pump and the water mist disk and the high-pressure pipe between the air compressor and the water mist disk.

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

1. the rotating wheel arranged in the utility model can freely fold and unfold the high-voltage tube, thereby preventing the high-voltage tube from winding;

2. the utility model is provided with the extension arm support with adjustable length and angle, and the water mist disc is directly put into flying overhead dust, thereby improving the dust removal effect;

3. the utility model discloses a through the setting of strip piece nozzle, make column type high-pressure draught can carry out decentralized processing with face formula high-pressure rivers, set up through the contained angle, increased the mobility of water smoke.

Drawings

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

fig. 2 is a schematic diagram of a water mist disk structure.

In the figure: 1-a cantilever crane; 11-a motorized chassis; 12-a front pillar;

13-a cross beam; 131-a beam section; 132-a third ear mount portion; 133-a fourth ear mount portion; 134-a fork body;

14-a telescopic arm;

15-a bracket; 151-seat portion; 152-shaft head; 153-a first ear mount portion; 154-through hole;

16-swing telescopic cylinder; 161-a second ear mount portion;

17-rear pillar; 18-a first gear; 19-a second gear; 110-a drive motor; 111-adjusting the telescopic cylinder;

2-a water mist disk; 21-a disc portion; 22-a fifth ear seat portion; 23-a sixth ear seat portion; 24-a first side water spray block portion; 25-a gas injection block; 26-oblique line hole body; 27-a linear pore body; 28-middle water-spraying block part; 29-second side water spray block portion;

4-a first accessory device; 41-a rotating wheel; 42-a winch;

9-pump station device; 95-a water tank; 96-water pump; 97-air compressor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 2, the present invention provides a technical solution: the utility model provides a civil engineering job site dust collector, includes the probe arm car 1 as the motion carrier, sets up water smoke dish 2 on probe arm car 1 and sets up pump station device 9 between water smoke dish 2 and probe arm car 1, probe arm car 1 includes motor-driven chassis 11, still be equipped with first accessory device 4 on the probe arm car 1, first accessory device 4 is including rotating wheel 41 and hoist engine 42, pump station device 9 includes water tank 95, water pump 96 and air compressor machine 97, water tank 95 is installed on motor-driven chassis 11 and is connected with water pump 96 through the high-pressure line, water pump 96 and air compressor machine 97 are all installed in motor-driven chassis 11 below, air compressor machine 97 is connected on water smoke dish 2.

In this embodiment, the cantilever crane 1 includes a motor chassis 11, a front pillar 12, a cross beam 13, a telescopic arm 14, a bracket 15, a swing telescopic cylinder 16, a rear pillar 17, a first gear 18, a second gear 19, a driving motor 110 and an adjusting telescopic cylinder 111, the front pillar 12 and the rear pillar 17 are respectively disposed at the front end and the rear end of the motor chassis 11, the bracket 15 and the first gear 18 are respectively disposed on the rear pillar 17, the telescopic arm 14 and the driving motor 110 are disposed on the bracket 15, the cross beam 13 is disposed between the telescopic arm 14 and the front pillar 12, a rotating wheel 41 and a water mist disk 2 are respectively disposed above and below the cross beam 13, the cross beam 13 is connected with the water mist disk 2 through the adjusting telescopic cylinder 111, the swing telescopic cylinder 16 is disposed between the telescopic arm 14 and the bracket 15, the second gear 19 is disposed on an output shaft of the driving motor 110, the first gear 18 is engaged with the second gear 19, a winch 42 is arranged at the tail end of the telescopic arm 14.

In the present embodiment, the motor-driven chassis 11 is used as a truck chassis and the front part of the upper end of the motor-driven chassis 11 is connected to the front pillar 12, the rear part of the upper end of the motor-driven chassis 11 is connected to the rear pillar 17, and the middle of the end surface of the upper end of the motor-driven chassis 11 is connected to the water tank 95, and the end surface of the lower end of the motor-driven chassis 11 is connected to the water pump 96 and the air compressor 97, respectively.

Through motor-driven chassis 11, formed the support tie point to front column 12, rear column 17, water tank 95, water pump 96 and air compressor machine 97, by motor-driven chassis 11, realized being connected with front column 12, realized being connected with rear column 17, realized being connected with water tank 95, realized being connected with water pump 96, realized being connected with air compressor machine 97, its technical aim at: for serving as a support carrier for the front upright 12, the rear upright 17, the water tank 95, the water pump 96 and the air compressor 97.

The upper end face of the rear upright post 17 is a T-shaped rod with a convex-shaped rotating hole body, the convex-shaped rotating hole body of the rear upright post 17 is connected with the bracket 15, and the rear upright post 17 is connected with the first gear 18 in a penetrating manner.

Through rear column 17, formed the support connection to motor-driven chassis 11, bracket 15 and first gear 18, by rear column 17, realized the connection of motor-driven chassis 11 and the connection of bracket 15, its technical aim at: the first gear 18 is used as a supporting carrier of the bracket 15 and the first gear 18, the first gear 18 is arranged to be connected with the rear upright post 17 in a sleeved mode, the second gear 19 is arranged to be connected with an output shaft of the driving motor 110 in a sleeved mode, the second gear 19 is arranged to be connected with the first gear 18 in a meshed mode, and the transmission ratio of the second gear 19 to the first gear 18 is set to be 11-13.

In this embodiment, the bracket 15 includes a seat 151, a shaft head portion 152, and a first ear seat portion 153, the side surface of the seat 151 is provided with a through hole 154, the shaft head portion 152 is connected to the lower middle position of the seat 151, the first ear seat portion 153 is connected to the lower end of the seat 151 and hinged to the lower end of the swing telescopic cylinder 16, and the shaft head portion 152 is connected to the rear pillar 17.

Through bracket 15, formed the support connection to telescopic boom 14, swing telescopic cylinder 16, rear column 17 and driving motor 110, by through-hole body 154, realized being connected with telescopic boom 14, by first ear seat portion 153, realized being connected with swing telescopic cylinder 16, by nose portion 152, realized being connected with rear column 17, by seat portion 151, realized being connected with driving motor 110, its technical aim at: for serving as a support carrier for the telescopic arm 14, the swing telescopic cylinder 16 and the drive motor 110.

In this embodiment, the end of the telescopic arm 14 is connected to the output shaft of the swing telescopic cylinder 16 via a second lug portion 161, and the second lug portion 161 is fixed to the end of the telescopic arm 14.

Through flexible arm 14, formed the support tie point to motor chassis 11, crossbeam 13, hoist engine 42, bracket 15 and swing telescoping cylinder 16, by flexible arm 14, realized being connected with motor chassis 11, realized being connected with crossbeam 13, realized being connected with hoist engine 42, realized being connected with bracket 15, by second ear seat portion 61, realized being connected with swing telescoping cylinder 16, its technical aim at: the support carrier is used for serving as a cross beam 13 and a winch 42, the swing telescopic cylinder 16 is arranged to be a two-section telescopic cylinder, a hydraulic port part of the swing telescopic cylinder 16 is arranged to be connected with a hydraulic device of the motor chassis 11, one end of the swing telescopic cylinder 16 is arranged to be connected with the telescopic arm 14 through a pin shaft, the other end of the swing telescopic cylinder 16 is arranged to be connected with the bracket 15 through a pin shaft, a support connection point of the motor chassis 11, the telescopic arm 14 and the bracket 15 is formed through the swing telescopic cylinder 16, the swing telescopic cylinder 16 is connected with the motor chassis 11, the connection with the telescopic arm 14 is realized, and the connection with the bracket 15 is realized, so that the technical purpose is that: for the purpose of bringing the telescopic arm 14 into a swinging movement in the bracket 15.

In this embodiment, the cross beam 13 includes a beam portion 131, a third lug portion 132 and a fourth lug portion 133, a fork body 134 is disposed in the beam portion 131, the third lug portion 132 is connected to the outer end of the lower side of the beam portion 131, the fourth lug portion 133 is connected to the upper side of the beam portion 131, one end of the beam portion 131 is connected to the top of the front pillar 12, the fork body 134 is connected to the output shaft of the telescopic boom 14, the third lug portion 132 is hinged to the mist plate 2, the top of the fourth lug portion 133 is connected to the rotating wheel 41, and the telescopic adjusting cylinder 111 is hinged to the fork body 134.

Through crossbeam 13, formed the support tie point to water smoke dish 2, front column 12, rotating wheel 41, telescopic boom 14 and regulation telescopic cylinder 111, by swing telescopic cylinder 16, realized being connected with water smoke dish 2, realized being connected with front column 12, realized with rotating wheel 41 being connected, realized being connected with telescopic boom 14, realized with the connection of adjusting telescopic cylinder 111, its technical aim at: for serving as a support carrier for the water mist disk 2, the rotating wheel 41 and the adjusting telescopic cylinder 111.

Through front column 12, the support connection point to motor chassis 11 and crossbeam 13 has been formed, by front column 12, realized being connected with motor chassis 11, realized being connected with crossbeam 13, its technical aim lies in: for supporting and fixing the cross beam 13.

In the embodiment, the adjusting telescopic cylinder 111 is provided as a two-section telescopic cylinder, a hydraulic port of the adjusting telescopic cylinder 111 is provided to be connected with a hydraulic device of the motor chassis 11, one end of the adjusting telescopic cylinder 111 is provided to be connected with the water mist disk 2 through a pin, and a housing side surface of the adjusting telescopic cylinder 111 is provided to be connected with the cross beam 13 through a pin.

Through adjusting telescopic cylinder 111, formed the support tie point to motor chassis 11, water smoke dish 2 and crossbeam 13, by adjusting telescopic cylinder 111, realized being connected with motor chassis 11, realized being connected with water smoke dish 2, realized being connected with crossbeam 13, its technical aim at: as a means for bringing the mist disk 2 into oscillating motion on the cross beam 13.

In this embodiment, the water mist disk 2 includes a disk portion 21, a fifth ear seat portion 22, a sixth ear seat portion 23, a first side water spraying block portion 24, an air spraying block portion 25, a middle water spraying block portion 28 and a second side water spraying block portion 29, the inner side surface of the first side water spraying block portion 24, the side surface of the middle water spraying block portion 28 and the inner side surface of the second side water spraying block portion 29 are respectively provided with a diagonal duct body 26, the outer end surface of the air spraying block portion 25 is provided with a linear duct body 27, two ends of the disk portion 21 are respectively provided with the first side water spraying block portion 24 and the second side water spraying block portion 29, the middle position of the disk portion 21 is provided with the middle water spraying block portion 28, the air spraying block portions 25 are symmetrically arranged at two sides of the middle water spraying block portion 28, the middle position of one side of the disk portion 21 is connected with the fifth ear seat portion 22, the other side thereof is connected with the two symmetrically arranged sixth ear seat portions 23, the fifth ear seat portion 22 is connected to the cross beam 13 through a pin, the sixth lug seat part 23 is connected to the adjusting telescopic cylinder 111 through a pin shaft, the first side water spraying block part 24, the middle water spraying block part 28 and the second side water spraying block part 29 are connected to the water pump 96 through high-pressure pipes, the air spraying block part 25 is connected to the air compressor 97, and an included angle between the central line of the oblique line hole body 26 and the horizontal plane of the air spraying block part 25 is 65-82 degrees.

Through water smoke dish 2, formed the support tie point to crossbeam 13, water pump 96, air compressor 97 and regulation telescoping cylinder 111, by fifth ear seat portion 22, realized being connected with crossbeam 13, by first side water spray piece portion 24, middle water spray piece portion 28 and second side water spray piece portion 29, realized being connected with water pump 96, by jet-propelled piece portion 25, realized being connected with air compressor 97, by sixth ear seat portion 23, realized being connected with regulation telescoping cylinder 111, by dish portion 21, realized carrying out the support processing to fifth ear seat portion 22, sixth ear seat portion 23, first side water spray piece portion 24, gas spray piece portion 25, middle water spray piece portion 28 and second side water spray piece portion 29, by slash pore body 26, straight line pore body 27, realized atomizing water, its technical aim at: as one of the means for handling flying dust.

In the present embodiment, the water tank 95 is provided as a rectangular box-shaped body having a sealing cover at an upper end surface portion and a lower end surface portion of the water tank 95 is provided to be connected to the motor chassis 11, and an output port portion at a lower end on a side surface of the water tank 95 is provided to be connected to the water pump 96 through a high-pressure pipe.

Through water tank 95, formed the support tie point to motor-driven chassis 11 and water pump 96, by water tank 95, realized being connected with motor-driven chassis 11, realized being connected with water pump 96, its technical aim at: and the second part is used for processing flying dust.

The housing of the water pump 96 is arranged to be connected to the motor vehicle chassis 11 and the hydraulic port of the hydraulic motor on the end shaft of the water pump 96 is arranged to be connected to the hydraulics of the motor vehicle chassis 11, the inlet port of the water pump 96 is arranged to be connected to the water tank 95 by a high-pressure pipe and the outlet port of the water pump 96 is arranged to be connected to the mist disk 2 by a high-pressure pipe.

Through water pump 96, formed the support tie point to motor-driven chassis 11, water smoke dish 2 and water tank 95, by water pump 96, realized being connected with motor-driven chassis 11, realized being connected with water smoke dish 2, realized being connected with water tank 95, its technical aim at: and the third part is used for processing flying dust.

In this embodiment, the rotating wheel 41 is a disk-shaped body with two annular grooves on the periphery, the rotating wheel 41 is rotatably connected with the cross beam 13 through a pin shaft, one annular groove of the rotating wheel 41 is connected with a high-pressure pipe between the water pump 96 and the water mist disk 2, the other annular groove of the rotating wheel 41 is connected with a high-pressure pipe between the air compressor 97 and the water mist disk 2, the winch 42 is installed above the tail end of the telescopic arm 14, and the winding drum of the winch 42 is respectively connected with the high-pressure pipe between the water pump 96 and the water mist disk 2 and the high-pressure pipe between the air compressor 97 and the water mist disk 2.

Through rotating wheel 41, formed the support tie point to water smoke dish 2, crossbeam 13, water pump 96 and air compressor machine 97, by rotating wheel 41, realized being connected with water smoke dish 2, realized being connected with crossbeam 13, realized being connected with water pump 96, realized being connected with air compressor machine 97, its technical aim at: for use as a component for guiding the movement of the high pressure tube.

In this embodiment, the housing of the winch 42 is arranged to be connected to the telescopic boom 14 and the hydraulic port of the hydraulic motor on the power shaft of the winch 42 is arranged to be connected to the hydraulic device of the motor chassis 11, and the winding drums of the winch 42 are respectively arranged to be connected in a looped manner to the high-pressure pipe between the water pump 96 and the water mist disk 2 and the high-pressure pipe between the air compressor 97 and the water mist disk 2.

Through hoist engine 42, formed the support tie point to motor-driven chassis 11, water smoke dish 2, water pump 96 and air compressor machine 97, by hoist engine 42, realized being connected with motor-driven chassis 11, realized being connected with water smoke dish 2, realized being connected with water pump 96, realized being connected with air compressor machine 97, its technical aim at: for use as a means for storing high pressure tubing around.

The working principle is as follows: screwing off a sealing cover of a water tank 95 to enable an open part of the water tank 95 to be in a free open state, injecting water into the water tank 95, when the water in the water tank 95 is in a full state, screwing down the sealing cover of the water tank 95 to enable the open part of the water tank 95 to be in a sealing state, entering a civil engineering construction site through a motor chassis 11, enabling a telescopic arm 14 to rotate in a through hole body 154 through swinging a telescopic cylinder 16 to realize the adjustment of the elevation angle and the depression angle of a disc part 21, separating an outer end of a beam part 131 from a front upright post 12, driving a second gear 19 to carry out meshing rotation on a first gear 18 through a driving motor 110, enabling a shaft head part 152 to rotate in a convex rotating hole body of a rear upright post 17 to drive the disc part 21 to rotate to realize the all-directional angle adjustment of the disc part 21, and driving the disc part 21 to extend or retract through the telescopic arm 14, the length of the disc part 21 is adjusted, the disc part 21 is placed on a civil engineering construction operation point through the omnibearing angle adjustment of the disc part 21, the length adjustment of the disc part 21 and the elevation angle and depression angle adjustment of the disc part 21 are carried out, the fifth lug seat part 22 is rotated in the third lug seat part 132 through the adjustment of the telescopic cylinder 111, the swing angle of the disc part 21 is adjusted, the first side water spraying block part 24, the air spraying block part 25, the middle water spraying block part 28 and the second side water spraying block part 29 are enabled to be opposite to the civil engineering construction operation point, the water pump 96 and the air compressor 97 are enabled to be in a working state, the water pump 96 pumps the water in the water tank 95 to generate high-pressure water flow, the air compressor 97 generates high-pressure air flow, the high-pressure water flow is sprayed out through the inclined duct body 26, the high-pressure air flow is sprayed out through the linear duct body 27, water mist is generated on the end face of the outer end of the disc part 21, dust generated by flying upward dust is removed, when the telescopic arm 14 drives the disc part 21 to extend or contract, the winch 42 is in an operating state, a winding drum of the winch 42 releases or winds the high-pressure pipe, the rotating wheel 41 rotates on the fourth lug seat portion 133, the high-pressure pipe performs guiding motion on the rotating wheel 41, after dust removal of flying and pitching is completed, the water pump 96 and the air compressor 97 are in a non-operating state, the telescopic arm 14 and the adjusting telescopic cylinder 111 are in a contracting state, the outer end of the beam portion 131 is placed at the upper end of the front upright post 12 through the driving motor 110, the first gear 18 and the second gear 19, and the outer end of the beam portion 131 is placed on the front upright post 12 through the swinging telescopic cylinder 16.

Based on the above, the rotating wheel arranged in the utility model can freely retract and release the high-voltage tube, so as to prevent the high-voltage tube from winding; the utility model is provided with the extension arm support with adjustable length and angle, and the water mist disc is directly put into flying overhead dust, thereby improving the dust removal effect; the utility model discloses a through the setting of strip piece nozzle, make column type high-pressure draught can carry out decentralized processing with face formula high-pressure rivers, set up through the contained angle, increased the mobility of water smoke.

It will be appreciated by those skilled in the art that the utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of or equivalence to the utility model are intended to be embraced therein.

Claims (7)

1. The utility model provides a civil engineering job site dust collector which characterized in that: including probe arm car (1) as the motion carrier, set up water smoke dish (2) on probe arm car (1) and set up pump station device (9) between water smoke dish (2) and probe arm car (1), probe arm car (1) includes motor-driven chassis (11), still be equipped with first annex device (4) on probe arm car (1), first annex device (4) are including rotating wheel (41) and hoist engine (42), pump station device (9) are including water tank (95), water pump (96) and air compressor machine (97), water tank (95) are installed on motor-driven chassis (11) and are connected with water pump (96) through the high-pressure pipe, water pump (96) and air compressor machine (97) are all installed in motor-driven chassis (11) below, air compressor machine (97) are connected on water smoke dish (2).

2. The civil engineering job site dust collector of claim 1, characterized in that: the cantilever detecting vehicle (1) comprises a motor chassis (11), a front upright post (12), a cross beam (13), a telescopic arm (14), a bracket (15), a swing telescopic cylinder (16), a rear upright post (17), a first gear (18), a second gear (19), a driving motor (110) and an adjusting telescopic cylinder (111), wherein the front upright post (12) and the rear upright post (17) are respectively arranged at the front end and the rear end of the motor chassis (11), the bracket (15) and the first gear (18) are respectively arranged on the rear upright post (17), the telescopic arm (14) and the driving motor (110) are arranged on the bracket (15), the cross beam (13) is arranged between the telescopic arm (14) and the front upright post (12), rotating wheels (41) and a water mist disc (2) are respectively arranged above and below the cross beam (13), and the cross beam (13) and the water mist disc (2) are connected through the adjusting telescopic cylinder (111), a swing telescopic cylinder (16) is arranged between the telescopic arm (14) and the bracket (15), a second gear (19) is arranged on an output shaft of the driving motor (110), the first gear (18) is meshed with the second gear (19), and a winch (42) is arranged at the tail end of the telescopic arm (14).

3. The civil engineering job site dust collector of claim 2, characterized in that: the bracket (15) comprises a seat part (151), a shaft head part (152) and a first ear seat part (153), wherein a through hole (154) is formed in the side face of the seat part (151), the shaft head part (152) is connected to the middle position below the seat part (151), the first ear seat part (153) is connected to the tail end below the seat part (151) and hinged to the lower end of the swing telescopic cylinder (16), and the shaft head part (152) is connected to the inside of the rear upright post (17).

4. The civil engineering job site dust collector of claim 2, characterized in that: the tail end of the telescopic arm (14) is connected to an output shaft of the swing telescopic cylinder (16) through a second lug seat part (161), and the second lug seat part (161) is fixed at the tail end of the telescopic arm (14).

5. The civil engineering job site dust collector of claim 2, characterized in that: crossbeam (13) are including roof beam portion (131), third ear seat portion (132) and fourth ear seat portion (133), be equipped with fork mouth body (134) in roof beam portion (131), the below outer end at roof beam portion (131) is connected in third ear seat portion (132), the top at roof beam portion (131) is connected in fourth ear seat portion (133), the one end of roof beam portion (131) is connected at front column (12) top, the output shaft at flexible arm (14) is connected in fork mouth body (134), third ear seat portion (132) articulate on water smoke dish (2), the top and the running wheel (41) of fourth ear seat portion (133) are connected, adjust telescopic cylinder (111) articulated the installing on fork mouth body (134).

6. The civil engineering job site dust collector of claim 2, characterized in that: the water spray disc (2) comprises a disc part (21), a fifth ear seat part (22), a sixth ear seat part (23), a first side water spray block part (24), an air injection block part (25), a middle water spray block part (28) and a second side water spray block part (29), wherein oblique line hole cavities (26) are respectively arranged on the inner side surface of the first side water spray block part (24), the side surface of the middle water spray block part (28) and the inner side surface of the second side water spray block part (29), linear hole cavities (27) are arranged on the outer end surface of the air injection block part (25), a first side water spray block part (24) and a second side water spray block part (29) are respectively arranged at two ends of the disc part (21), the middle position of the disc part (21) is provided with the middle water spray block part (28), the air spray block parts (25) are symmetrically arranged on two sides of the middle water spray block part (28), and the middle position of one side of the disc part (21) is connected with the fifth ear seat part (22), the other side of the telescopic water jet device is connected with two symmetrically-arranged sixth lug seat portions (23), the fifth lug seat portion (22) is connected to the cross beam (13) through a pin shaft, the sixth lug seat portion (23) is connected to the adjusting telescopic cylinder (111) through a pin shaft, the first side water jet block portion (24), the middle water jet block portion (28) and the second side water jet block portion (29) are connected to the water pump (96) through a high-pressure pipe, the air jet block portion (25) is connected to the air compressor (97), and an included angle formed between the central line of the inclined line hole body (26) and the horizontal plane of the air jet block portion (25) is 65-82 degrees.

7. The civil engineering job site dust collector of claim 2, characterized in that: the rotating wheel (41) is a disc-shaped body with double annular grooves on the periphery, the rotating wheel (41) is rotatably connected with the cross beam (13) through a pin shaft, one annular groove of the rotating wheel (41) is connected with a high-pressure pipe between the water pump (96) and the water mist disc (2) and the other annular groove of the rotating wheel (41) is connected with a high-pressure pipe between the air compressor (97) and the water mist disc (2), the winch (42) is installed above the tail end of the telescopic arm (14), and a winding drum of the winch (42) is respectively connected with the high-pressure pipe between the water pump (96) and the water mist disc (2) and the high-pressure pipe between the air compressor (97) and the water mist disc (2).

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