CN110124415B - Building engineering environment monitoring device - Google Patents

Abstract

The invention discloses a building engineering environment monitoring device, relates to the field of building engineering equipment, and aims to solve the problem that the resource utilization of the traditional environment monitoring device is unreasonable, and the technical scheme is as follows: including setting up in a plurality of engineering regions and being used for detecting the detection device of dust, setting up the dust device in a plurality of engineering regions, detection device is coupled with the controller, detection device includes the dust sensor, the dust device includes spray assembly and is used for adjusting the adjustment mechanism that spray assembly water spray volume, a plurality of dust pollution scope values are predetermine to the controller, and when dust sensor feedback dust detection value to controller, and the dust detection value falls into dust pollution scope value, the adjustment mechanism in the region that controller control dust sensor locates adjusts spray assembly's the volume of spraying. The building engineering environment monitoring device has the advantage of saving water resources.

Description

Building engineering environment monitoring device

Technical Field

The invention relates to the technical field of detection equipment for buildings, in particular to a building engineering environment monitoring device.

Background

A large amount of construction dust is generated in the house construction process, and the construction dust mainly comprises silicon dioxide powder and non-mineral powder; silica is present in common building materials, including cement, concrete and mortar. Once a significant change in the material has occurred, such as cutting, drilling, grinding and blasting materials such as granite, sand and sandstone, silica dust, also known as respirable crystalline silica, is produced. This is the most dangerous building dust. Fine dust particles are dangerous, especially silica dust particles. After inhalation, the dust can reduce the lung capacity, increase the overall pressure of the heart, and cause various diseases; it also causes irritation to the eyes, nose, throat, skin and lungs. In order to protect the health of workers and prevent secondary pollution caused by the spread of construction dust to a city, the dust of a construction site needs to be controlled.

Although current dust fall system can reach the purpose of dust fall, during the in-service use, because the dust distribution in the engineering region is uneven, some local dust is more serious, needs to spray in a large number and carries out the dust fall, but some local dust volume is less, if spray with normal water yield then cause the water waste, consequently need provide a new scheme and solve above-mentioned problem.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a building engineering environment monitoring device which has the effect of reasonably utilizing water resources.

The above object of the present invention is achieved by the following technical solutions:

the utility model provides a building engineering environmental monitoring device, is including setting up in a plurality of engineering regions and being used for detecting the detection device of dust, setting up the dust device in a plurality of engineering regions, detection device is coupled with the controller, detection device includes the dust sensor, the dust device includes spray assembly and is used for adjusting the adjustment mechanism that spray assembly sprayed water volume, a plurality of dust pollution scope values are predetermine to the controller, work as dust sensor feedback dust detected value to controller, and the dust detected value falls into dust pollution scope value, the adjustment mechanism in the region is located to controller control dust sensor adjusts spray assembly's volume.

Through adopting above-mentioned technical scheme, through dividing out different engineering regions according to the operational aspect of difference, can be more reasonable detect out the dust pollution condition in the different regions, thereby improve and detect the precision, when the dust concentration in one of them certain region is too high, through the dust fall dynamics that the more serious region of improvement pollution that the controller can be pertinence, improve the dust fall effect, when the dust concentration in one of them certain region is lower, can the pertinence reduce the dust fall dynamics that pollutes the region that is lighter through the controller, thereby reach the technological effect of water conservation, make the water resource obtain more reasonable application.

The invention is further configured to: the spray assembly comprises a fixing frame, at least three spray pipes are fixedly arranged on the fixing frame, water spray holes are formed in the side walls of the spray pipes, the spray pipes are connected to the same water pipe, the water pipe is connected to a water source, and the adjusting mechanism is arranged outside the spray pipes and used for adjusting the sizes of the water spray holes.

Through adopting above-mentioned technical scheme, can regulate and control the water yield of every spray tube alone through adjustment mechanism, thereby according to the operating condition in this region, when the dust volume in this region is great, start to the biggest simultaneously through three or a plurality of spray tubes of adjustment mechanism control, thereby adjust the dust fall dynamics to the biggest, improve the dust fall effect, when the dust volume in this region is less, one of them or two spray tubes of adjustment mechanism control are closed, thereby reduce the volume of spraying, under the prerequisite that can the dust fall guaranteeing, furthest's realization water economy resource's purpose.

The invention is further configured to: the adjustment mechanism locates the control tube outside the spout pipe including the cover, the regulation hole has been seted up to the lateral wall of control tube, every the control tube tip all is connected with driven gear, the mount is connected with and is used for controlling driven gear pivoted control assembly.

Through adopting above-mentioned technical scheme, the regulation hole corresponds with the hole for water spraying and sets up, and when the amount of water spraying of spray tube was adjusted to needs, control assembly drive driven gear rotated to drive the control tube and rotate, when the control tube rotated, the relative position of regulation hole and hole for water spraying changed, thereby the control hole for water spraying open-ended size reached the effect of adjusting the amount of water spraying.

The invention is further configured to: the control assembly is including fixed the control box that sets up in the mount, driven gear stretches into in the control box, the control assembly is still including fixed mounting panel, the first cylinder that is fixed in the mounting panel, the control panel of connecting in first cylinder piston rod that sets up in the control box, the control panel is fixed with three rack towards driven gear's side, and three rack is the stairstepping setting along the length of gear axis direction, be provided with the second cylinder that is used for promoting the axis direction of mounting panel along the gear and slides in the control box.

Through adopting above-mentioned technical scheme, when the water spray volume of one of them spray tube of needs control, the second cylinder control mounting panel moves along the direction of driven gear axis, make wherein the biggest rack of width and one of them driven gear meshing, when first cylinder is flexible like this, only can control a driven gear and realize rotating, and then the water spray volume size of one of them spray tube of control, when needs improve the water spray volume, the second cylinder promotes the mounting panel and slides towards driven gear direction, make the rack and two or more driven gear meshing wherein, thereby can control two or more driven gear and rotate, and then the water spray volume of controlling a plurality of spray tubes, realize nimble regulation.

The invention is further configured to: the mounting panel is provided with first guide way, the control panel is provided with first guide block, first guide block slides and sets up in first guide way.

Through adopting above-mentioned technical scheme, when first cylinder promotion control panel slided from top to bottom, through the cooperation of first guide block with first guide way, play certain guide effect to the control panel.

The invention is further configured to: the control box is internally provided with a second guide groove, the mounting plate is connected with a second guide block, and the second guide block is arranged in the second guide groove in a sliding manner.

Through adopting above-mentioned technical scheme, when the second cylinder promoted the mounting panel and slided for the control box inner wall, through the cooperation of second guide block with the second guide way, played certain guide effect to the mounting panel.

The invention is further configured to: the controller has preset three dust range value and is low respectively, moderate, highly, when the numerical value of dust sensor to controller feedback falls into low degree within range, controller control second cylinder promotes the mounting panel, make rack only drive a driven gear rotate, thereby control the hole for water spraying increase of a spray tube, when the feedback value of dust sensor falls into moderate, controller control rack and two driven gear meshing, when the feedback value of dust sensor falls into highly, controller control rack and three driven gear mesh simultaneously.

By adopting the technical scheme, the dust content in the areas is independently monitored by the dust sensors in different areas, the multipoint monitoring effect is achieved, when the dust content in one area falls into a corresponding range value, the first air cylinder and the second air cylinder in the corresponding areas are controlled by the controller, when the concentration value detected by the dust sensor falls into a height range, the controller controls the second air cylinder to push the mounting plate to slide towards the driven gear, so that the rack and the three driven gears can be meshed simultaneously, the first air cylinder can simultaneously control the water spray holes on the three spray pipes to be enlarged, the spray amount in the area is adjusted to be maximum, the dust falling effect is improved, when the concentration value detected by the dust sensor falls into a middle range, the controller controls the second air cylinder to pull the mounting plate to slide towards the direction deviating from the driven gear, make the rack only with two driven gear meshing to can only control the water spray volume increase of two wherein spray tubes, and another spray tube is closed condition, when the dust concentration value that dust sensor detected falls into low degree within range, the controller control second cylinder pulling mounting panel further slides towards the direction that deviates from driven gear, thereby makes the rack only with one of them driven gear meshing, thereby control a spray tube and open, remaining is closed, reaches the technological effect of water economy resource.

The invention is further configured to: the water spraying holes and the adjusting holes are both formed in a semicircular shape, and the adjusting holes are provided with spraying heads.

Through adopting above-mentioned technical scheme, when the control tube rotated, the hole for water spraying and the crisscross setting of control hole, and both crisscross areas are big more, and the water yield is big more to realize the regulation of water spray volume through rotating the control tube.

The invention is further configured to: the fixing frame is a lifting frame.

Through adopting above-mentioned technical scheme, realize the regulation of spray tube height through the crane to can adjust the height of spray tube to a certain extent.

In conclusion, the beneficial technical effects of the invention are as follows:

1. the dust pollution conditions in different areas can be reasonably detected by dividing different engineering areas according to different working conditions, so that the detection precision is improved, when the dust concentration in one area is too high, the dust falling force of the area with serious pollution can be pertinently improved through the controller, the dust falling effect is improved, when the dust concentration in one area is lower, the dust falling force of the area with light pollution can be pertinently reduced through the controller, the technical effect of water saving is achieved, and the water resource is more reasonably applied;

2. can regulate and control the water yield of every spray tube alone through adjustment mechanism, thereby according to the operating condition in this region, when the dust volume in this region is great, start to the biggest simultaneously through three or a plurality of spray tubes of adjustment mechanism control, thereby adjust the dust fall dynamics to the biggest, improve the dust fall effect, when the dust volume in this region is less, one of them or two spray tubes of adjustment mechanism control are closed, thereby reduce the volume of spraying, under the prerequisite that can the dust fall guaranteeing, furthest's realization water economy resource's purpose.

Drawings

FIG. 1 is a block diagram of the control system of the present invention;

fig. 2 is a schematic overall structure diagram of the dust settling device of the invention;

fig. 3 is a schematic view of the internal structure of the dust settling device of the present invention;

FIG. 4 is a schematic structural view of the mounting plate of the present invention;

fig. 5 is a schematic structural view of the spray assembly of the present invention.

In the figure, 1, a detection device; 2. a dust falling device; 3. a controller; 5. a spray assembly; 6. an adjustment mechanism; 7. a fixed mount; 8. a nozzle; 9. a water spray hole; 10. a water pipe; 11. an adjusting tube; 12. an adjustment hole; 13. a driven gear; 14. a control component; 15. a control box; 16. mounting a plate; 17. a first cylinder; 18. a control panel; 19. a rack; 20. a second cylinder; 21. a first guide groove; 22. a first guide block; 23. a second guide groove; 24. a second guide block; 25. a sprinkler head.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, for the building engineering environment monitoring device disclosed by the present invention, an engineering area is divided into a plurality of areas according to actual working conditions, each engineering area is provided with a detection device 1 and a dust falling device 2 for detecting dust, wherein the detection device 1 is coupled with a controller 3, the detection device 1 comprises a dust sensor, the dust falling device 2 comprises a spraying assembly 5 and an adjusting mechanism 6 for adjusting the water spraying amount of the spraying assembly 5, a plurality of dust pollution range values are preset in the controller 3, the dust sensor feeds back the detected dust value to the controller 3, and when the dust detection value falls into a certain dust pollution range value, the controller 3 controls the adjusting mechanism 6 in the area where the dust sensor is located, so as to adjust the spraying amount of the spraying assembly 5 as required. Through dividing out different engineering regions according to the behavior of difference, can be more reasonable detect out the dust pollution condition in the different regions, thereby improve and detect the precision, when the dust concentration in one of them certain region is too high, through the dust fall dynamics that the more serious region of improvement pollution that controller 3 can be pertinence, improve the dust fall effect, when the dust concentration in one of them certain region is lower, through the dust fall dynamics that the regional that the reduction that controller 3 can be pertinence pollution is lighter, thereby reach the technological effect of water conservation, make the water resource obtain more reasonable application.

As shown in fig. 2 and 5, the spraying assembly 5 includes a fixing frame 7 disposed on the ground, and at least three spraying pipes 8 fixedly disposed on the fixing frame 7, wherein water spraying holes 9 are formed in the side walls of the spraying pipes 8, the spraying pipes 8 are connected to the same water pipe 10, the water pipe 10 is connected to a water source, and the adjusting mechanism 6 is disposed outside the spraying pipes 8 and used for adjusting the size of the water spraying holes 9; can regulate and control the water yield of every spray tube 8 alone through adjustment mechanism 6, thereby according to the operating condition in this region, when the dust volume in this region is great, start to the biggest simultaneously through three or a plurality of spray tubes 8 of adjustment mechanism 6 control, thereby adjust the dust fall dynamics to the biggest, improve the dust fall effect, when the dust volume in this region is less, adjustment mechanism 6 controls one of them or two spray tubes 8 and closes, thereby reduce the volume of spraying, under the prerequisite that can the dust fall guaranteeing, furthest's realization water economy resource's purpose.

As shown in fig. 3 and 5, the adjusting mechanism 6 includes adjusting pipes 11 sleeved outside the spraying pipe 8, adjusting holes 12 are formed in side walls of the adjusting pipes 11, a driven gear 13 is connected to an end of each adjusting pipe 11, and the fixing frame 7 is connected to a control assembly 14 for controlling the rotation of the driven gear 13; the regulation hole 12 corresponds with the hole for water spraying 9 and sets up, and when the amount of water spraying of spray tube 8 was adjusted to needs, control assembly 14 drive driven gear 13 rotated to drive the rotation of governing pipe 11, when governing pipe 11 rotated, the relative position of regulation hole 12 and hole for water spraying 9 changed, thereby the open-ended size of control hole for water spraying 9 reached the effect of adjusting the amount of water spraying.

As shown in fig. 3 and 4, the control assembly 14 includes a control box 15 fixedly disposed on the fixed frame 7, the driven gear 13 extends into the control box 15, the control assembly 14 further includes a mounting plate 16 fixedly disposed in the control box 15, a first cylinder 17 fixed on the mounting plate 16, and a control plate 18 connected to a piston rod of the first cylinder 17, three racks 19 are fixed on a side surface of the control plate 18 facing the driven gear 13, the three racks 19 are arranged in a step shape along a length of the gear axis direction, and a second cylinder 20 for pushing the mounting plate 16 to slide along the gear axis direction is disposed in the control box 15; when the water spraying amount of one of the nozzles 8 needs to be controlled, the second cylinder 20 controls the mounting plate 16 to move along the axis direction of the driven gear 13, so that the rack 19 with the largest width is meshed with one of the driven gears 13, and thus when the first cylinder 17 extends and retracts, only one driven gear 13 can be controlled to rotate, and the water spraying amount of one of the nozzles 8 is controlled.

As shown in fig. 3, a first guide groove 21 is provided on the mounting plate 16, a first guide block 22 is provided on the control plate 18, and the first guide block 22 is slidably disposed in the first guide groove 21; when the first cylinder 17 pushes the control plate 18 to slide up and down, the first guide block 22 is matched with the first guide groove 21 to guide the control plate 18 to a certain extent.

As shown in fig. 3, a second guide groove 23 is provided on the inner wall of the control box 15, a second guide block 24 is connected to the mounting plate 16, and the second guide block 24 is slidably provided in the second guide groove 23; when the second cylinder 20 pushes the mounting plate 16 to slide relative to the inner wall of the control box 15, the second guide block 24 is matched with the second guide groove 23 to guide the mounting plate 16 to a certain extent.

Three dust range values are preset in the controller 3, the detected dust concentration is divided into three grades of low degree, medium degree and high degree, when the value fed back to the controller 3 by the dust sensor falls into the low degree range, the controller 3 controls the second air cylinder 20 to push the mounting plate 16, so that the rack 19 only drives one driven gear 13 to rotate, the water spraying hole 9 of one spraying pipe 8 is controlled to be enlarged, when the feedback value of the dust sensor falls into the medium degree, the controller 3 controls the rack 19 to be meshed with the two driven gears 13, and when the feedback value of the dust sensor falls into the high degree, the controller 3 controls the rack 19 to be meshed with the three driven gears 13 simultaneously; the dust content in the areas is independently monitored by the dust sensors in different areas to achieve the effect of multipoint monitoring, when the dust content in a certain area falls into a corresponding range value, the first air cylinder 17 and the second air cylinder 20 in the corresponding areas are controlled by the controller 3, when a concentration value detected by the dust sensor falls into a height range, the controller 3 controls the second air cylinder 20 to push the mounting plate 16 to slide towards the driven gear 13, so that the rack 19 and the three driven gears 13 can be simultaneously meshed, the first air cylinder 17 can simultaneously control the water spraying holes 9 on the three spraying pipes 8 to be enlarged, the spraying amount in the area is adjusted to be maximum, the dust falling effect is improved, when the concentration value detected by the dust sensor falls into a middle range, the controller 3 controls the second air cylinder 20 to pull the mounting plate 16 to slide towards the direction departing from the driven gear 13, the rack 19 is only meshed with the two driven gears 13, so that the water spraying amount of only two spray pipes 8 can be controlled to increase, the other spray pipe 8 is in a closed state, when the dust concentration value detected by the dust sensor is in a low-degree range, the controller 3 controls the second air cylinder 20 to pull the mounting plate 16 to further slide towards the direction departing from the driven gears 13, so that the rack 19 is only meshed with one driven gear 13, one spray pipe 8 is controlled to be opened, and the rest of the spray pipes are closed, so that the technical effect of saving water resources is achieved.

As shown in fig. 5, the water spraying holes 9 and the adjusting holes 12 are both formed in a semicircular shape, and the adjusting holes 12 are provided with the sprinkler heads 25; when the adjusting pipe 11 rotates, the water spraying holes 9 and the adjusting holes 12 are arranged in a staggered mode, the larger the staggered area of the water spraying holes 9 and the adjusting holes 12 is, the larger the water yield is, and therefore the water spraying amount can be adjusted by rotating the adjusting pipe 11. The fixing frame 7 can adopt a lifting frame; the height of the spray pipe 8 can be adjusted through the lifting frame, so that the height of the spray pipe 8 can be adjusted to a certain degree.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (6)

1. The utility model provides a building engineering environmental monitoring device, is including setting up in a plurality of engineering regions and being used for detecting detection device (1) of dust, setting up dust device (2) in a plurality of engineering regions, controller (3) are coupled to detection device (1), detection device (1) includes dust sensor, its characterized in that: the dust falling device (2) comprises a spraying assembly (5) and an adjusting mechanism (6) for adjusting the water spraying amount of the spraying assembly (5), a plurality of dust pollution range values are preset in the controller (3), when the dust sensor feeds back a dust detection value to the controller (3), and the dust detection value falls into the dust pollution range value, the controller (3) controls the adjusting mechanism (6) in the area where the dust sensor is located, and the spraying amount of the spraying assembly (5) is adjusted; the spraying assembly (5) comprises a fixing frame (7) and at least three spraying pipes (8) fixedly arranged on the fixing frame (7), water spraying holes (9) are formed in the side walls of the spraying pipes (8), the spraying pipes (8) are connected to the same water pipe (10), the water pipe (10) is connected to a water source, and the adjusting mechanism (6) is arranged outside the spraying pipes (8) and used for adjusting the sizes of the water spraying holes (9); the adjusting mechanism (6) comprises adjusting pipes (11) sleeved outside the spray pipe (8), adjusting holes (12) are formed in the side walls of the adjusting pipes (11), a driven gear (13) is connected to the end portion of each adjusting pipe (11), and the fixing frame (7) is connected with a control assembly (14) used for controlling the driven gear (13) to rotate; control assembly (14) is including fixed control box (15) that sets up in mount (7), driven gear (13) stretch into in control box (15), control assembly (14) still including fixed mounting panel (16) that sets up in control box (15), be fixed in first cylinder (17) of mounting panel (16), connect in control panel (18) of first cylinder (17) piston rod, control panel (18) are fixed with three rack (19) towards the side of driven gear (13), and three rack (19) are the stairstepping setting along the length of gear axis direction, be provided with in control box (15) and be used for promoting second cylinder (20) that mounting panel (16) slided along the axis direction of gear.

2. The building engineering environment monitoring device of claim 1, wherein: the mounting panel (16) is provided with first guide way (21), control panel (18) are provided with first guide block (22), first guide block (22) slide and set up in first guide way (21).

3. The building engineering environment monitoring device of claim 1, wherein: a second guide groove (23) is formed in the control box (15), the mounting plate (16) is connected with a second guide block (24), and the second guide block (24) is arranged in the second guide groove (23) in a sliding mode.

4. The building engineering environment monitoring device of claim 1, wherein: controller (3) have preset three dust range value and be low respectively, moderate, highly, when the numerical value of dust sensor to controller (3) feedback falls into low degree within range, controller (3) control second cylinder (20) promote mounting panel (16), make rack (19) only drive a driven gear (13) and rotate, thereby the hole for water spraying (9) of control spray tube (8) increase, when the feedback value of dust sensor falls into moderate, controller (3) control rack (19) and two driven gear (13) meshing, when the feedback value of dust sensor falls into highly, controller (3) control rack (19) and three driven gear (13) mesh simultaneously.

5. The building engineering environment monitoring device of claim 1, wherein: the water spraying holes (9) and the adjusting holes (12) are both formed in a semicircular shape, and the adjusting holes (12) are provided with spraying heads (25).

6. The building engineering environment monitoring device of claim 1, wherein: the fixing frame (7) is a lifting frame.

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