阅读说明：本技术 一种用于施工现场除尘降噪用声震水帘场地隔离墙 (Be used for job site to remove dust and fall and make an uproar with sound vibration cascade place division wall ) 是由 不公告发明人 于 2021-09-24 设计创作，主要内容包括：本发明专利公开了一种用于施工现场除尘降噪用声震水帘场地隔离墙,包括移动支撑主体和除尘降噪主体,除尘降噪主体活动设于移动支撑主体之间,移动支撑主体设有移动底座,移动底座的底端均匀对称设有若干移动轮,移动底座的中心位置设有循环水腔,移动底座的顶端中心位置设有伸展结构,移动底座顶端一侧设有控制面板,循环水腔的顶端一侧的中心位置设有注水口,注水口靠近伸展结构的一侧设有出水管,出水管的底端设有变频抽水泵,注水口远离伸展结构的一侧设有进水管。有益效果：移动灵活,便于安装和运输,结构简单,安全性高,消音范围大,减少了施工地点对周围环境的噪音污染,能够防止施工现场的灰尘扩散,能够使水资源重复利用,节能环保。(The invention discloses a sound-vibration water curtain site isolation wall for dust removal and noise reduction in a construction site, which comprises a movable support main body and a dust removal and noise reduction main body, wherein the dust removal and noise reduction main body is movably arranged between the movable support main bodies, the movable support main body is provided with a movable base, a plurality of movable wheels are uniformly and symmetrically arranged at the bottom end of the movable base, a circulating water cavity is arranged at the central position of the movable base, an extension structure is arranged at the central position of the top end of the movable base, a control panel is arranged on one side of the top end of the movable base, a water filling port is arranged at the central position of one side of the top end of the circulating water cavity, a water outlet pipe is arranged on one side, close to the extension structure, of the water filling port, a variable-frequency water pump is arranged at the bottom end of the water outlet, and a water inlet pipe is arranged on one side, far away from the extension structure, of the water filling port. Has the advantages that: the movable type water-saving silencing device is flexible to move, convenient to install and transport, simple in structure, high in safety, large in silencing range, capable of reducing noise pollution of construction sites to surrounding environments, capable of preventing dust diffusion of construction sites, capable of enabling water resources to be repeatedly used, energy-saving and environment-friendly.)

1. The utility model provides a be used for job site dust removal to fall and make an uproar with sound shock cascade place division wall, its characterized in that, include a plurality of removal support main parts (1) and remove dust and fall main part (2) of making an uproar, remove dust and fall the activity of making an uproar main part (2) and locate between the removal support main part (1), removal support main part (1) is equipped with removal base (3), the even symmetry in bottom of removal base (3) is equipped with a plurality of removal wheels (4), the central point of removal base (3) puts and is equipped with circulation water cavity (5), the top central point of removal base (3) puts and is equipped with extending structure (6), removal base (3) top one side is equipped with control panel, the central point of top one side of circulation water cavity (5) puts and is equipped with water filling port (7), one side that water filling port (7) are close to extending structure (6) is equipped with outlet pipe (8), the bottom of outlet pipe (8) is equipped with the frequency conversion suction pump, the frequency conversion suction pump with the control panel electricity is connected, water filling port (7) are kept away from one side of extending structure (6) is equipped with inlet tube (9), outlet pipe (8) with inlet tube (9) all alternate and locate the top of removal base (3).

2. The acoustic shock water curtain site isolation wall for dust removal and noise reduction in a construction site as claimed in claim 1, wherein the extension structure (6) is provided with a first support slot frame (10), the first support slot frame (10) is fixedly arranged on one side of the top end of the moving base (3), a support unfolding chute (11) is arranged at the central position of the first support slot frame (10), a limit snap-gauge plate (12) is fixedly arranged at two ends of one side of the first support slot frame (10), a first fixed support block (13) is arranged at the bottom end of the support unfolding chute (11), a second fixed support block (14) is arranged at the top end of the support unfolding chute (11), a sliding support block (15) clamped in the support unfolding chute (11) is movably arranged between the first fixed support block (13) and the second fixed support block (14), an expansion structure (16) is movably arranged between one side of the first fixed supporting block (13) and one side of the sliding supporting block (15), and a guide structure (17) is movably arranged between the other side of the first fixed supporting block (13) and the other side of the second fixed supporting block (14).

3. The acoustic shock water curtain site isolation wall for dedusting and noise reduction at a construction site as claimed in claim 2, it is characterized in that both ends of the telescopic structure (16) are provided with a first linkage plate (18) and a second linkage plate (19), the first linkage plate (18) is arranged at the top end of the second linkage plate (19), a first supporting column is movably inserted into the center position of one end of the first linkage plate (18) and the second linkage plate (19) together, the first supporting column is fixedly inserted in the center of the first fixed supporting block (13), a first unfolding handle (20) is arranged on one side of the first linkage plate (18) close to the first supporting column, a plurality of cross structures are arranged between the first linkage plate (18) and the second linkage plate (19), and a plurality of supporting conveying plates (21) are arranged on one side of the cross structure, which is far away from the guide structure (17).

4. The acoustic shock water curtain site isolation wall for dedusting and noise reduction at a construction site as claimed in claim 3, characterized in that the cross structure is provided with a first cross plate (22) and a second cross plate (23), the center position of the first cross plate (22) is crossed with the center position of the second cross plate (23), a cross supporting column (24) is movably inserted in the central position of the first cross plate (22) and the central position of the second cross plate (23), one end of the cross supporting column (24) is fixedly connected with the supporting and conveying plate (21), the other end of the cross supporting column (24) is provided with a guide connecting plate (25), the other end of the guide connecting plate (25) is provided with a guide sliding column (26), the first cross plate (22) is movably connected with the first linkage plate (18), the second cross plate (23) is movably connected with the second linkage plate (19).

5. The acoustic shock water curtain site separation wall for dedusting and noise reduction in construction sites is characterized in that the supporting and conveying plate (21) is provided with a supporting metal bottom plate (27), one side of the supporting metal bottom plate (27) is fixedly overlapped with a supporting and conveying side plate (28), the width of the supporting and conveying side plate (28) is smaller than that of the supporting metal bottom plate (27), the height of the supporting metal bottom plate (27) is smaller than that of the supporting and conveying side plate (28), one side of the supporting metal bottom plate (27) is provided with a homing slot (29) positioned at one side of the supporting and conveying side plate (28), the homing slot (29) is positioned at one side of the supporting and conveying side plate (28) far away from the cross structure, the top end and the bottom end of the supporting metal bottom plate (27) are respectively provided with a top splicing slot (30) and a bottom splicing slot (31) close to the supporting and conveying side plate (28), the height of top concatenation draw-in groove (30) and bottom concatenation draw-in groove (31) is the same, the central point who supports transport curb plate (28) puts and runs through and is equipped with pipeline (32), the top of pipeline (32) is equipped with leak protection silica gel circle (33), the height of leak protection silica gel circle (33) is between 5-8 millimeters, the maximum diameter of leak protection silica gel circle (33) is less than the internal diameter of pipeline (32), just the maximum diameter of leak protection silica gel circle (33) with the internal diameter difference of pipeline (32) is 1 millimeter, be located the bottom of pipeline (32) of support delivery plate (21) with outlet pipe (8) screwed connection, be located the top the central point who supports delivery plate (21) is equipped with arc conveyer pipe (34) through, the top of arc conveyer pipe (34) is equipped with be fixed in support delivery plate (21) top support delivery horizontal pole (35), support one side central point of carrying horizontal pole (35) and put and be equipped with connection conveyer pipe (36), the one end of connecting conveyer pipe (36) with arc conveyer pipe (34) intercommunication, it is equipped with between carrying horizontal pole (35) the spiral and rolls up curtain structure (37) to support.

6. The acoustic shock water curtain site separation wall for dust removal and noise reduction in a construction site as claimed in claim 5, wherein the guide structure (17) is provided with a guide groove pipe (38), one side of the guide groove pipe (38) close to the supporting and conveying plate (21) is provided with a guide sliding groove (39), the guide sliding column (26) is movably arranged in the guide sliding groove (39), the bottom end and the top end of the guide groove pipe (38) are symmetrically provided with a first guide connecting plate (40), the other end of the first guide connecting plate (40) is movably connected with the first fixed supporting block (13) or the second fixed supporting block (14), the other side of the first guide connecting plate (40) is fixedly provided with a first guide handle (41) or a second guide handle (42), and a guide connecting rod (43) is movably inserted in the center position of the first guide handle (41), the other end of the guide connecting rod (43) is movably connected with the second guide handle (42), and the guide groove pipe (38) and the guide connecting rod (43) are movably inserted into the limiting clamping plate (12).

7. The acoustic vibration water curtain site separation wall used for dust removal and noise reduction in a construction site is characterized in that a shunt pipe (44) is arranged at the top end of the rolling curtain structure (37), two ends of the shunt pipe (44) are spirally connected with the supporting and conveying cross rod (35), the central position of the shunt pipe (44) is communicated with the connecting and conveying pipe (36), two ends of the shunt pipe (44) are respectively provided with a two-way switch valve (45), the two-way switch valve (45) is electrically connected with the control panel, a shunt plate is arranged at the central position of the shunt pipe (44), two ends of the shunt plate are fixedly connected with the central position of the two-way switch valve (45), the top end of the two-way switch valve (45) is provided with a top spray valve (46), the bottom end of the two-way switch valve (45) is provided with a leakage bottom valve (47), a plurality of first spray pipes (48) are uniformly arranged at the top end of the shunt pipe (44), first spray pipe (48) with top spraying valve (46) electricity is connected, the bottom of shunt tubes (44) evenly is equipped with a plurality of hole for water jets (49), the bottom of shunt tubes (44) is hung and is equipped with layering radio reception dust removal net (50), the bottom of layering radio reception dust removal net (50) is equipped with and filters spray pipe (51), filter spray pipe (51) both ends with circulating water chamber (5) swing joint.

8. The acoustic shock water curtain site isolation wall for dedusting and noise reduction in construction sites as claimed in claim 7, wherein magnet layers (52) are uniformly arranged on one sides, close to the arrangement clamping grooves (29), of two ends of the layered sound reception and dedusting net (50), the width of each magnet layer (52) is the same as that of the arrangement clamping grooves (29), a plurality of magnet blocks (53) are uniformly arranged in each magnet layer (52), sound shock dense nets (54) are respectively arranged on two sides of the layered sound reception and dedusting net (50), water leakage grids (55) clamped between the sound shock dense nets (54) are arranged at the center of the layered sound reception and dedusting net (50), a plurality of water leakage meshes (56) are arranged on each water leakage grid (55), and a plurality of water leakage holes (57) are uniformly arranged on the side walls of each water leakage mesh (56).

9. The acoustic shock water curtain site isolation wall for dedusting and noise reduction at construction sites as claimed in claim 8, it is characterized in that the bottom of the filtering spray pipe (51) is provided with an isolation frame (58), a filtering drawer (59) is movably arranged at the top end of the isolation frame (58), a filtering layer is arranged at the bottom end of the filtering drawer (59), a recycling water inlet channel (60) is arranged at the bottom end of the isolation frame (58), a plurality of second spraying pipes (61) are uniformly arranged at the bottom end of the recycling water inlet channel (60), the second spray pipe (61) is electrically connected with the control panel, both ends of the filtering spray pipe (51) are provided with a water pumping and returning pipe, a water suction pump is arranged at the bottom end of the water suction and return pipe and is electrically connected with the control panel, the water pumping return pipe is communicated with the recovery water inlet channel (60), and the bottom end of the water pumping return pipe is spirally connected with the water inlet pipe (9).

Technical Field

The invention relates to the technical field of noise reduction of construction sites, in particular to an acoustic shock water curtain site isolation wall for dust removal and noise reduction of a construction site.

Background

With the continuous development of cities, the road problems are gradually updated, but in the updating process, as the residential communities matched around cannot move, and the work of road maintenance and the like inserted in the cities also needs to be completed urgently, construction teams have to construct and keep pace with the progress day and night, so that the quiet environment around is sacrificed, meanwhile, the air pollution of the surrounding environment is increased, as water can absorb sound waves, most construction sites can establish enclosing walls around the construction sites, and spray devices are arranged at the tops of the enclosing walls to reduce the diffusion of dust, but because the spray amount is small, the dust removal effect is very little, and sometimes a water gun is used for air purification, so that the ground is wet, the traffic safety around is influenced, and time and labor are consumed.

An effective solution to the problems in the related art has not been proposed yet.

SUMMARY OF THE PATENT FOR INVENTION

Aiming at the problems in the related art, the invention provides a sound-vibration water curtain field isolation wall for dust removal and noise reduction in a construction site, which aims to overcome the technical problems in the prior related art.

Therefore, the invention adopts the following specific technical scheme:

the utility model provides a be used for job site to remove dust and fall with sound shock cascade place division wall, includes that a plurality of removal support subject and the main part of making an uproar of falling of removing, the main part activity of making an uproar of falling of removing is located remove between the support subject, it is equipped with the removal base to remove the support subject, the even symmetry in bottom of removing the base is equipped with a plurality of removal wheels, the central point of removing the base puts and is equipped with the circulation water cavity, the top central point of removing the base puts and is equipped with extending structure, it is equipped with control panel to remove base top one side.

Further, the central point of top one side in circulation water cavity puts and is equipped with the water filling port, the water filling port is close to one side of extending structure is equipped with the outlet pipe, the bottom of outlet pipe is equipped with the frequency conversion suction pump, the frequency conversion suction pump with control panel electricity is connected, the water filling port is kept away from one side of extending structure is equipped with the inlet tube, the outlet pipe with the inlet tube all alternates and locates remove the top of base.

Furthermore, the extending structure is provided with a first supporting groove frame, the first supporting groove frame is fixedly arranged on one side of the top end of the moving base, a supporting unfolding chute is arranged at the center of the first supporting groove frame, limiting clamping plates are fixedly arranged at two ends of one side of the first supporting groove frame, a first fixed supporting block is arranged at the bottom end of the supporting unfolding chute, a second fixed supporting block is arranged at the top end of the supporting unfolding chute, a sliding supporting block clamped in the supporting unfolding chute is movably arranged between the first fixed supporting block and the second fixed supporting block, an extending structure is movably arranged between the first fixed supporting block and one side of the sliding supporting block, and a guiding structure is movably arranged between the other side of the first fixed supporting block and the other side of the second fixed supporting block.

Furthermore, telescopic structure's both ends all are equipped with first linkage board and second linkage board, first linkage board is located the top of second linkage board, first linkage board with the one end central point of second linkage board puts the concerted movement and alternates and be equipped with first supporting column, first supporting column is fixed alternate in the central point of first fixed supporting shoe puts, first linkage board is close to one side of first supporting column is equipped with first expansion handle, first linkage board with be equipped with a plurality of cross structure between the second linkage board, cross structure keeps away from one side of guide structure is equipped with a plurality of support delivery boards.

Furthermore, the cross structure is provided with a first cross plate and a second cross plate, the central position of the first cross plate and the central position of the second cross plate are arranged in a cross mode, a cross support column is movably inserted into the central position of the first cross plate and the central position of the second cross plate together, one end of the cross support column is fixedly connected with the support conveying plate, the other end of the cross support column is provided with a guide connecting plate, the other end of the guide connecting plate is provided with a guide sliding column, the first cross plate is movably connected with the first linkage plate, and the second cross plate is movably connected with the second linkage plate.

Furthermore, the supporting and conveying plate is provided with a supporting metal bottom plate, one side of the supporting metal bottom plate is fixedly overlapped with a supporting and conveying side plate, the width of the supporting and conveying side plate is smaller than that of the supporting metal bottom plate, the height of the supporting metal bottom plate is smaller than that of the supporting and conveying side plate, one side of the supporting metal bottom plate is provided with a resetting clamping groove positioned at one side of the supporting and conveying side plate, the resetting clamping groove is positioned at one side of the supporting and conveying side plate far away from the cross structure, the top end and the bottom end of the supporting metal bottom plate are respectively provided with a top splicing clamping groove and a bottom splicing clamping groove which are close to the supporting and conveying side plate, the top splicing clamping groove and the bottom splicing clamping groove are the same in height, a conveying pipeline penetrates through the central position of the supporting and conveying side plate, the top end of the conveying pipeline is provided with a leakage-proof silica gel ring, and the height of the leakage-proof silica gel ring is between-millimeter, the maximum diameter of leak protection silica gel circle is less than pipeline's internal diameter, just the maximum diameter of leak protection silica gel circle with pipeline's internal diameter difference is the millimeter, is located the bottom support the delivery board the bottom of pipeline with outlet pipe screwed connection is located the top support the central point of delivery board and put and run through and be equipped with the arc conveyer pipe, the top of arc conveyer pipe is equipped with and is fixed in support the horizontal pole is carried to the support on delivery board top, one side central point that supports the horizontal pole of carrying puts and is equipped with the connection conveyer pipe, the one end of connecting the conveyer pipe with arc conveyer pipe intercommunication, the support is carried the spiral and is equipped with a roll curtain structure between the horizontal pole.

Furthermore, the guide structure is provided with a guide groove pipe, a guide sliding groove is formed in one side, close to the support conveying plate, of the guide groove pipe, a guide sliding chute is formed in the guide sliding chute in a movable mode, first guide connecting plates are symmetrically arranged at the bottom end and the top end of the guide groove pipe, the other end of each first guide connecting plate is movably connected with the corresponding first fixed supporting block or the corresponding second fixed supporting block, a first guide handle or a second guide handle is fixedly arranged on the other side of each first guide connecting plate, a guide connecting rod is movably inserted into the center of each first guide handle, the other end of each guide connecting rod is movably connected with the corresponding second guide handle, and the guide groove pipe and the guide connecting rods are movably inserted into the limit clamping plates.

Furthermore, the top end of the roller shutter structure is provided with a shunt tube, the two ends of the shunt tube are spirally connected with the supporting and conveying cross rod, the central position of the shunt tube is communicated with the connecting and conveying pipe, the two ends of the shunt tube are respectively provided with a two-way switch valve, the two-way switch valve is electrically connected with the control panel, the central position of the shunt tube is provided with a shunt plate, the two ends of the shunt plate are fixedly connected with the central position of the two-way switch valve, the top end of the two-way switch valve is provided with a top spray valve, the bottom end of the two-way switch valve is provided with a leakage bottom valve, the top end of the shunt tube is uniformly provided with a plurality of first spray pipes, the first spray pipes are electrically connected with the top spray valve, the bottom end of the shunt tube is uniformly provided with a plurality of spray holes, a layered radio and dust collecting net is hung at the bottom of the shunt tube, and the bottom end of the layered radio and dust collecting net is provided with a filtering spray pipe, and two ends of the filtering spray pipe are movably connected with the circulating water cavity.

Further, the both ends of layering radio reception dust removal net are close to one side of putting in order the draw-in groove evenly is equipped with the magnet layer, the width on magnet layer with the width of putting in order the draw-in groove is the same, evenly be equipped with a plurality of magnet pieces in the magnet layer, the both sides of layering radio reception dust removal net all are equipped with the close net of acoustic shock, the central point that layering radio reception dust removal net put to be equipped with and press from both sides and locate the net that leaks between the close net of acoustic shock, the net that leaks is equipped with a plurality of meshes that leak, the lateral wall of the mesh that leaks evenly is equipped with a plurality of holes that leak.

Further, the bottom of filtering the spray pipe is equipped with keeps apart the frame, the top activity of keeping apart the frame is equipped with filters the drawer, the bottom of filtering the drawer is equipped with the filter layer, the bottom of keeping apart the frame is equipped with retrieves inhalant canal, the bottom of retrieving inhalant canal evenly is equipped with a plurality of second spray pipes, the second spray pipe with the control panel electricity is connected, the both ends of filtering the spray pipe all are equipped with the back flow of drawing water, the bottom of drawing water the back flow is equipped with the suction pump, the suction pump with the control panel electricity is connected, the back flow of drawing water with retrieve inhalant canal intercommunication, the bottom of the back flow of drawing water with advance water pipe screwed connection.

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

1. the edge that utilizes the transportation of removal wheel to remove the support main part to the construction site, the position transform of the whole device of being convenient for can beat the position of this device in a flexible way according to the construction process, and then carries out the scope to the construction site and divide.

2. The included angle between the first cross plate and the second cross plate is gradually reduced by stirring the first unfolding handle, so that the supporting conveying plate is uniformly unfolded, the supporting conveying plate at the top drives the roller shutter structure to ascend to the top, the roller shutter structure is convenient to install and ascend and descend, and the operation is simple.

3. When the top rises to the book curtain structure, make through guide structure and support the delivery board and rotate to make seamless concatenation between the support delivery board, because the maximum diameter of leak protection silica gel circle is 1 millimeter with pipeline's internal diameter difference, thereby the outside that supports the delivery board is spouted to the side when having prevented water impact, has avoided the humidification to outside road, has improved the security of this device.

4. Can be according to the frequency of the highest position regulation frequency conversion suction pump of roll screen structure through control panel, thereby make the water beam height that the outlet pipe jetted out different, and then make the water beam pass through pipeline and deliver to in the arc conveyer pipe, because the pipeline bottom and the outlet pipe screwed connection of the support delivery board that are located the bottom, thereby make the water beam pass through pipeline and arrive behind the arc conveyer pipe, receive the lateral pressure at arc conveyer pipe top, make the water beam enter into and connect in the conveyer pipe, through increasing and reducing the quantity that supports the delivery board, thereby can adjust the highest position of water beam transmission, the trouble that the change water pipe brought has been avoided.

5. Because the both ends of layering radio reception dust removal net are close to the one side of putting in order the draw-in groove evenly to be equipped with the magnet layer, the width on magnet layer is the same with the width of putting in order the draw-in groove, make layering radio reception dust removal net and put in order the draw-in groove through the magnet layer and overlap, the expansion and the fixing of the layering radio reception dust removal net of being convenient for, the installation effectiveness of this device has been improved, evenly be equipped with a plurality of magnet pieces in the magnet layer, thereby make layering radio reception dust removal net can roll up and accomodate, be convenient for transport and expansion, and then make the support delivery board can be like rolling up curtain structure transport clear water when carrying out the support to layering radio reception dust removal net, the water pipe that drags has been avoided, moreover, the steam generator is simple in structure, and convenient for splicing.

6. Make the water beam get into the flow distribution plate top through opening top spray valve to make first injection spray pipe with the water blowout at flow distribution plate top, and then remove dust to the air of this device top, utilize water smoke to enlarge the amortization scope simultaneously.

7. The water curtain is formed in the layered radio and dust removal net by opening the leakage bottom valve and spraying water beams to the bottom of the splitter plate, the layered radio and dust removal net is hung at the bottom of the splitter plate, the sound vibration dense nets are arranged on two sides of the layered radio and dust removal net, when noise is generated in a building site, the sound vibration energy can be collected through the sound vibration dense nets, so that the sound vibration dense nets are driven to vibrate at different frequencies, the water leakage grid clamped between the sound vibration dense nets is arranged at the central position of the layered radio and dust removal net, the water leakage grid is provided with a plurality of water leakage meshes, the side walls of the water leakage meshes are uniformly provided with a plurality of water leakage holes, water flow is uniformly divided into a plurality of water drops through the water leakage holes distributed on the water leakage meshes, water drops in the layered radio and dust removal net vibrate at the same frequency due to the vibration of the sound vibration dense nets, and further collect noise around a construction site, the noise pollution of the construction site to the surrounding environment is reduced.

8. Simultaneously after the dust of construction site is close to layering radio reception dust removal net, the dust melts into the cascade, owing to receive the gravity, sneaks into the muddy water of dust and continues the whereabouts, owing to receive the vibrations of the dense net of acoustic shock, can accelerate the whereabouts of muddy water, avoids the hole that leaks to take place muddy water and piles up.

9. After in muddy water whereabouts the filter drawer, make muddy water carry out the mud sediment through the filter layer through the suction pump and filter to change the filter layer at any time and wash the filter layer through filtering the drawer, thereby make the filter layer can used repeatedly, the partial clear water after the filtration is spout through the second injection spray pipe, avoids the dust to spread out the construction work place from the bottom gap of this device, has improved the efficiency of dust removal radio reception.

10. Because the water pumping backflow pipe is communicated with the recycling water inlet channel, and the bottom end of the water pumping backflow pipe is in spiral connection with the water inlet pipe, the filtered clean water enters the circulating water cavity again, so that the water resource is recycled, and the water recycling device is energy-saving and environment-friendly.

Drawings

In order to more clearly illustrate the embodiments of the patent of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the patent of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an isolation wall of an acoustic vibration water curtain field for dust removal and noise reduction in a construction site according to an embodiment of the invention;

FIG. 2 is a partial structural schematic view of a circulating water chamber according to the present invention;

FIG. 3 is an enlarged view of a portion of the structure of the elongated structure according to the present invention;

FIG. 4 is an enlarged view of a portion of the telescopic structure according to the present invention;

FIG. 5 is an enlarged view of a portion of the structure at A in FIG. 3;

FIG. 6 is an enlarged view of a portion of the structure at B in FIG. 3;

FIG. 7 is an enlarged view of a portion of the structure at C in FIG. 4;

FIG. 8 is an enlarged view of a portion of the structure shown at D in FIG. 3;

FIG. 9 is an enlarged view of a portion of the structure at E in FIG. 3;

FIG. 10 is a schematic view of the position structure of the arc delivery pipe according to the invention;

FIG. 11 is a side view of a roller shade structure according to the present invention;

fig. 12 is an enlarged schematic view of a partial structure of a water leakage grid according to the present invention.

In the figure:

1. moving the support body; 2. a dust removal and noise reduction main body; 3. moving the base; 4. a moving wheel; 5. a circulating water cavity; 6. an extension structure; 7. a water injection port; 8. a water outlet pipe; 9. a water inlet pipe; 10. a first support slot frame; 11. a support deployment chute; 12. a limiting clamping plate; 13. a first fixed support block; 14. a second fixed support block; 15. a sliding support block; 16. a telescopic structure; 17. a guide structure; 18. a first linkage plate; 19. a second linkage plate; 20. a first deployment handle; 21. supporting the conveying plate; 22. a first cross plate; 23. a second cross plate; 24. cross bracing columns; 25. a guide connecting plate; 26. a guide strut; 27. a supporting metal base plate; 28. supporting the conveying side plate; 29. arranging the clamping grooves in a proper position; 30. the top is spliced with a clamping groove; 31. the clamping groove is spliced at the bottom; 32. a delivery conduit; 33. a leak-proof silica gel ring; 34. an arc-shaped conveying pipe; 35. supporting the conveyor rail; 36. connecting a conveying pipe; 37. a roller shutter structure; 38. a guide groove tube; 39. a guide chute; 40. a first guide connecting plate; 41. a first guide handle; 42. a second guide handle; 43. a guide connecting rod; 44. a shunt tube; 45. a two-way switching valve; 46. a top spray valve; 47. a leaky bottom valve; 48. a first spray pipe; 49. a water spray hole; 50. a layered radio dust removal net; 51. filtering the spray pipe; 52. a magnet layer; 53. a magnet block; 54. an acoustic vibration dense net; 55. a water leakage grid; 56. water leakage mesh; 57. a water leakage hole; 58. an insulating frame; 59. a filter drawer; 60. a water inlet channel is recovered; 61. a second spray pipe.

Detailed Description

For further explanation of the various embodiments, the drawings which form a part of the disclosure and which are incorporated in and constitute a part of this specification, illustrate embodiments and, together with the description, serve to explain the principles of operation of the embodiments, and to explain, by reference, other possible embodiments and advantages of the invention.

Example one

As shown in fig. 1-10:

the invention provides a structural schematic diagram of an acoustic vibration water curtain field isolation wall for dust removal and noise reduction in a construction site, which comprises a plurality of movable support main bodies 1 and dust removal and noise reduction main bodies 2, wherein the dust removal and noise reduction main bodies 2 are movably arranged between the movable support main bodies 1 and are convenient to disassemble and assemble, the movable support main bodies 1 are provided with movable bases 3, the bottom ends of the movable bases 3 are uniformly and symmetrically provided with a plurality of movable wheels 4, the device is convenient to move through the arrangement of the movable wheels 4, the position can be flexibly adjusted according to the construction progress, the re-disassembly and the re-assembly are avoided, the central position of each movable base 3 is provided with a circulating water cavity 5, the central position of the top end of each movable base 3 is provided with an extension structure 6, the central position of one side of the top end of each circulating water cavity 5 is provided with a water injection port 7, and the circulating water can be added into the circulating water cavities 5 after the device is assembled, the device is convenient to install and move, one side of the water injection port 7, which is close to the extension structure 6, is provided with a water outlet pipe 8, the bottom end of the water outlet pipe 8 is provided with a variable frequency water suction pump, the variable frequency water suction pump is electrically connected with the control panel, the water beam impact height in the water outlet pipe 8 can be adjusted through the variable frequency water suction pump, one side of the water injection port 7, which is far away from the extension structure 6, is provided with a water inlet pipe 9, the water outlet pipe 8 and the water inlet pipe 9 are arranged to realize cyclic utilization of partial water resources of the device, the device is energy-saving and environment-friendly, the water outlet pipe 8 and the water inlet pipe 9 are both arranged at the top end of the mobile base 3 in an inserting manner, the extension structure 6 is provided with a first support slot frame 10, the first support slot frame 10 is fixedly arranged at one side of the top end of the mobile base 3, and the central position of the first support slot frame 10 is provided with a support expansion slot 11, the supporting device comprises a first supporting groove frame 10, a second supporting groove frame 10, a first supporting plate 19, a second supporting plate 14, a sliding supporting block 15, a telescopic structure 16, a first linkage plate 18 and a second linkage plate 19, a first supporting column and a second supporting column, wherein the two ends of one side of the first supporting groove frame 10 are fixedly provided with limiting snap-gauge plates 12, the bottom end of the supporting unfolding sliding groove 11 is provided with the first fixed supporting block 13, the top end of the supporting unfolding sliding groove 11 is provided with the second fixed supporting block 14, the sliding supporting block 15 clamped in the supporting unfolding sliding groove 11 is movably arranged between the first fixed supporting block 13 and one side of the sliding supporting block 15, the two ends of the telescopic structure 16 are respectively provided with the first linkage plate 18 and the second linkage plate 19, the first linkage plate 18 is arranged at the top end of the second linkage plate 19, the center positions of one ends of the first linkage plate 18 and the second linkage plate 19 are jointly movably inserted with the first supporting column, the first supporting column is fixedly inserted in the center position of the first fixed supporting block 13, a first unfolding handle 20 is arranged on one side of the first linkage plate 18 close to the first supporting column, a plurality of cross structures are arranged between the first linkage plate 18 and the second linkage plate 19, each cross structure is provided with a first cross plate 22 and a second cross plate 23, the first cross plate 22 is movably connected with the first linkage plate 18, the second cross plate 23 is movably connected with the second linkage plate 19, the central position of the first cross plate 22 is crosswise arranged with the central position of the second cross plate 23, a cross supporting column 24 is movably inserted between the central position of the first cross plate 22 and the central position of the second cross plate 23, and through the arrangement of the cross supporting column 24, an included angle between the first cross plate 22 and the second cross plate 23 can be changed when the first unfolding handle 20 is pulled, so that the telescopic structure 16 is driven to ascend and descend, thereby the telescopic structure 16 completes the telescopic function, the other end of the cross support column 24 is provided with a guide connection plate 25, the other end of the guide connection plate 25 is provided with a guide sliding column 26, one side of the cross structure far away from the guide structure 17 is provided with a plurality of support conveying plates 21, one end of the cross support column 24 is fixedly connected with the support conveying plates 21 so as to drive the support conveying plates 21 to be separated and stacked, thereby facilitating the assembly and storage of the support conveying plates 21, the guide structure 17 is movably arranged between the other sides of the first fixed support block 13 and the second fixed support block 14, the guide structure 17 is provided with a guide groove pipe 38, one side of the guide groove pipe 38 near the support conveying plates 21 is provided with a guide sliding groove 39, the bottom end and the top end of the guide groove pipe 38 are symmetrically provided with a first guide connection plate 40, and the other end of the first guide connection plate 40 is connected with the first fixed support block 13 or the second fixed support block 21 The block 14 is movably connected, a first guiding handle 41 or a second guiding handle 42 is fixedly arranged on the other side of the first guiding connecting plate 40, a guiding connecting rod 43 is movably inserted in the center of the first guiding handle 41, the other end of the guiding connecting rod 43 is movably connected with the second guiding handle 42, the second guiding handle 42 is shifted to drive the first guiding connecting plate 40 to rotate, so as to drive the guiding connecting rod 43 to rotate, and further drive the guiding sliding chute 39 to rotate, because the guiding sliding column 26 is movably arranged in the guiding sliding chute 39, the guiding sliding chute 39 drives the guiding sliding column 26 to rotate, so as to drive the supporting conveying plate 21 to rotate, the guiding groove tube 38 and the guiding connecting rod 43 are movably inserted in the limiting clamping plate 12, thereby protecting the exterior of the guiding structure 17, since the supporting and conveying plate 21 is provided with a supporting metal bottom plate 27, one side of the supporting metal bottom plate 27 is fixedly overlapped with a supporting and conveying side plate 28, the width of the supporting and conveying side plate 28 is smaller than that of the supporting metal bottom plate 27, the height of the supporting metal bottom plate 27 is smaller than that of the supporting and conveying side plate 28, one side of the supporting metal bottom plate 27 is provided with a placing slot 29 located at one side of the supporting and conveying side plate 28, the placing slot 29 is located at one side of the supporting and conveying side plate 28 away from the cross structure, the top end and the bottom end of the supporting metal bottom plate 27 are respectively provided with a top splicing slot 30 and a bottom splicing slot 31 close to the supporting and conveying side plate 28, the top splicing slot 30 and the bottom splicing slot 31 have the same height, and the supporting and conveying plate 21 can be driven to separate after the telescopic structure 16 is fully unfolded, the supporting and conveying plate 21 is rotated by the guiding structure 17, because the top end of the supporting metal bottom plate 27 is provided with a top splicing clamping groove 30 close to the supporting and conveying side plate 28, the supporting and conveying plate 21 is spliced, the homing clamping groove 29 is positioned on one side of the supporting and conveying side plate 28 far away from the cross structure, because the central position of the supporting and conveying side plate 28 is penetrated with a conveying pipeline 32, the top end of the conveying pipeline 32 is provided with a leakage-proof silica gel ring 33, the height of the leakage-proof silica gel ring 33 is between 5 and 8 millimeters, the maximum diameter of the leakage-proof silica gel ring 33 is smaller than the inner diameter of the conveying pipeline 32, the difference value between the maximum diameter of the leakage-proof silica gel ring 33 and the inner diameter of the conveying pipeline 32 is 1 millimeter, when the supporting and conveying plate 21 is spliced, because the height of the leakage-proof silica gel ring 33 is between 5 and 8 millimeters, the leak-proof silica gel ring 33 can be smoothly clamped at the center of the bottom of the conveying pipeline 32, the difference value between the maximum diameter of the leak-proof silica gel ring 33 and the inner diameter of the conveying pipeline 32 is 1 mm, so that the lateral spraying to the outside of the supporting and conveying plate 21 is prevented when water flow impacts, the humidification to the external road is avoided, the safety of the device is improved, the bottom end of the conveying pipeline 32 of the supporting and conveying plate 21 at the bottom is spirally connected with the water outlet pipe 8, so that the water outlet pipe 8 sends water beams into the conveying pipeline 32, the central position of the supporting and conveying plate 21 at the top is provided with an arc-shaped conveying pipe 34 in a penetrating way, the top end of the arc-shaped conveying pipe 34 is provided with a supporting and conveying cross rod 35 fixed at the top end of the supporting and conveying plate 21, the central position of one side of the supporting and conveying cross rod 35 is provided with a connecting and conveying pipe 36, one end of the connecting and the arc-shaped conveying pipe 34 are communicated, after the water beam reaches the arc-shaped conveying pipe 34 through the conveying pipeline 32, the water beam enters the connecting conveying pipe 36 by the side pressure at the top of the arc-shaped conveying pipe 34, the highest position of the water beam transmission can be adjusted by increasing and decreasing the number of the supporting and conveying plates 21, the water pipe replacement is avoided, and a rolling curtain structure 37 is spirally arranged between the supporting and conveying cross rods 35.

The detailed usage and function of the first embodiment: transporting the movable supporting body 1 to the edge of the construction site, spirally installing the roller blind structure 37 in the supporting and conveying cross bar 35, gradually reducing the included angle between the first cross plate 22 and the second cross plate 23 by shifting the first unfolding handle 20, so as to uniformly unfold the supporting and conveying plate 21, because the central position of the supporting and conveying plate 21 at the top is provided with the arc-shaped conveying pipe 34 in a penetrating way, the top end of the arc-shaped conveying pipe 34 is provided with the supporting and conveying cross bar 35 fixed at the top end of the supporting and conveying plate 21, and the roller blind structure 37 is spirally arranged between the supporting and conveying cross bars 35, so as to enable the supporting and conveying plate 21 at the top to drive the roller blind structure 37 to ascend to the top, when the roller blind structure 37 ascends to the top, the second guiding handle 42 is shifted to drive the first guiding and connecting plate 40 to rotate, and because the two ends of the guiding and connecting rod 43 are movably connected with the first guiding and connecting plate 40 and the second guiding and connecting plate, and further make the guide connecting rod 43 push the guide chute 39 to rotate, because the guide sliding column 26 is movably arranged in the guide chute 39, so that the guide sliding chute 39 drives the guide sliding column 26 to rotate, and further make the supporting conveying plate 21 rotate, because the top end and the bottom end of the supporting metal bottom plate 27 are respectively provided with the top splicing clamping groove 30 and the bottom splicing clamping groove 31 which are close to the supporting conveying side plate 28, the heights of the top splicing clamping groove 30 and the bottom splicing clamping groove 31 are the same, so that the supporting conveying plate 21 can be seamlessly spliced, when the supporting conveying plate 21 is spliced, because the height of the leak-proof silica gel ring 33 is between 5 and 8 millimeters, the leak-proof silica gel ring 33 can be smoothly clamped in the bottom center of the conveying pipeline 32, because the difference between the maximum diameter of the leak-proof silica gel ring 33 and the inner diameter of the conveying pipeline 32 is 1 millimeter, thereby preventing the side from spraying to the outside of the supporting conveying plate 21 when water flow impacts, avoided the humidification to outside road, the security of this device has been improved, because the bottom and the 8 screwed connection of outlet pipe of the pipeline 32 that is located the support delivery board 21 of bottom, thereby make outlet pipe 8 deliver to pipeline 32 with the water beam, after the water beam passes through pipeline 32 and reachs arc conveyer pipe 34, receive the lateral pressure at arc conveyer pipe 34 top, make the water beam enter into and connect in the conveyer pipe 36, through increasing and reducing the quantity that supports delivery board 21, thereby can adjust the highest position of water beam transmission, the trouble that the change water pipe brought has been avoided.

Example two

As shown in fig. 1-4 and fig. 9-12:

the invention provides a structural schematic diagram of an acoustic vibration water curtain field isolation wall for dust removal and noise reduction on a construction site, which comprises a plurality of movable support main bodies 1 and dust removal and noise reduction main bodies 2, wherein the dust removal and noise reduction main bodies 2 are movably arranged between the movable support main bodies 1, the movable support main bodies 1 are provided with movable bases 3, a plurality of movable wheels 4 are uniformly and symmetrically arranged at the bottom ends of the movable bases 3, a circulating water cavity 5 is arranged at the central position of the movable bases 3, an extension structure 6 is arranged at the central position of the top ends of the movable bases 3, a control panel is arranged on one side of the top ends of the movable bases 3, a water injection port 7 is arranged at the central position of one side of the top ends of the circulating water cavity 5, a water outlet pipe 8 is arranged on one side, close to the extension structure 6, a frequency conversion water suction pump is arranged at the bottom end of the water outlet pipe 8 and is electrically connected with the control panel, the frequency of the variable frequency water pump can be adjusted according to the highest position of the rolling screen structure 37 through the control panel, so that the heights of the water beams ejected by the water outlet pipe 8 are different, because the bottom end of the conveying pipeline 32 of the supporting conveying plate 21 positioned at the bottom is spirally connected with the water outlet pipe 8, the water beams enter the supporting conveying pipeline 32 and are conveyed into the connecting conveying pipe 36 through the arc-shaped conveying pipe 34, because the top end of the rolling screen structure 37 is provided with a shunt pipe 44, two ends of the shunt pipe 44 are spirally connected with the supporting conveying cross rod 35, the central position of the shunt pipe 44 is communicated with the connecting conveying pipe 36, so that the water beams enter the shunt pipe 44, because two ends of the shunt pipe 44 are both provided with two-way switch valves 45, the two-way switch valves 45 are electrically connected with the control panel, the central position of the shunt tube 44 is provided with a shunt plate, the two ends of the shunt plate are fixedly connected with the central position of the two-way switch valve 45, the top end of the two-way switch valve 45 is provided with a top spray valve 46, the bottom end of the two-way switch valve 45 is provided with a leakage bottom valve 47, the top end of the shunt tube 44 is uniformly provided with a plurality of first spray tubes 48, the first spray tubes 48 are electrically connected with the top spray valve 46, the bottom end of the shunt tube 44 is uniformly provided with a plurality of water spray holes 49, the top spray valve 46 and the leakage bottom valve 47 are controlled by the control panel, water beams enter the top end of the shunt plate by opening the top spray valve 46, so that the first spray tubes 48 spray water at the top of the shunt plate, the air above the device is dedusted, meanwhile, the silencing range is expanded by using water mist, and by opening the leakage bottom valve 47, the water beam is sprayed to the bottom of the flow distribution plate, because the bottom of the flow distribution plate 44 is hung with the layered sound-receiving and dust-removing net 50, one side of the two ends of the layered sound-receiving and dust-removing net 50, which is close to the arrangement clamping groove 29, is uniformly provided with the magnet layer 52, one side of the supporting metal bottom plate 27 is provided with the arrangement clamping groove 29, which is positioned at one side of the supporting and conveying side plate 28, the arrangement clamping groove 29 is positioned at one side of the supporting and conveying side plate 28, which is far away from the cross structure, the width of the magnet layer 52 is the same as that of the arrangement clamping groove 29, after the layered sound-receiving and dust-removing net 50 is unfolded, the layered sound-receiving and dust-removing net 50 is overlapped with the arrangement clamping groove 29 through the magnet layer 52, so that the layered sound-receiving and dust-removing net 50 can be unfolded and fixed conveniently, a plurality of magnet blocks 53 are uniformly arranged in the magnet layer 52, thereby the layered sound-receiving and dust-removing net 50 can be rolled up and stored, the layered sound-receiving and dust-removing net 50 is convenient to transport and unfold, the sound-vibration dense nets 54 are arranged on the two sides of the layered sound-receiving and dust-removing net 50, when noise is generated in a construction site, the sound-vibration dense nets 54 can collect sound vibration energy to drive the sound-vibration dense nets 54 to vibrate at different frequencies, the water leakage grids 55 clamped between the sound-vibration dense nets 54 are arranged at the central position of the layered sound-receiving and dust-removing net 50, the water leakage grids 55 are provided with a plurality of water leakage meshes 56, the side walls of the water leakage meshes 56 are uniformly provided with a plurality of water leakage holes 57, when water flow falls into the water leakage grids 55 through the water spray holes 49, the water flow is uniformly divided into a plurality of water drops through the water leakage holes 57 distributed on the water leakage meshes 56, water drops in the layered sound-receiving and dust-removing net 50 vibrate at the same frequency due to the vibration of the sound-vibration dense nets 54, so that water curtains are formed in the layered sound-receiving and dust-removing net 50, and then collect the noise around the construction site, has reduced the noise pollution of construction site to the surrounding environment, simultaneously after the dust of construction site is close to the layering radio reception net 50, the dust melts into in the cascade, because receive the gravity, the muddy water of mixing into the dust continues the whereabouts, because receive the vibrations of the sound and shake dense net 54, can accelerate the whereabouts of muddy water, avoid the hole 57 that leaks takes place muddy water and pile up, because the bottom of the layering radio reception net 50 is equipped with filters spray pipe 51, the bottom of filtering spray pipe 51 is equipped with isolation frame 58, the top activity of isolation frame 58 is equipped with filters drawer 59, the bottom of filtering drawer 59 is equipped with the filter layer, the bottom of isolation frame 58 is equipped with retrieves inhalant canal 60, the bottom of retrieving inhalant canal 60 evenly is equipped with a plurality of second spray pipes 61, second spray pipe 61 with control panel electricity is connected, filter the both ends of injection spray pipe 51 and all be equipped with the back flow of drawing water, the bottom of the back flow of drawing water is equipped with the suction pump, the suction pump with the control panel electricity is connected, through the suction pump makes muddy water pass through the filter layer carries out the mud sediment and filters, and passes through filter drawer 59 changes at any time the filter layer is washd the filter layer, thereby makes the filter layer can used repeatedly, and the clear water after the filtration passes through second injection spray pipe 61 carries out the part blowout, avoids the dust to spread out outside the construction work place from the bottom gap of this device, has improved the efficiency of radio reception, because draw water the back flow with retrieve inlet channel 60 intercommunication, draw water the back flow the bottom with inlet tube 9 screwed connection to make the clear water after filtering enter into again in the circulating water chamber 5, make water resource reuse.

The detailed application method and function of the second embodiment: when the rolling curtain structure 37 rises to the top, the supporting and conveying plates 21 are spliced through the guide structure 17, meanwhile, as the magnet layers 52 are uniformly arranged on one sides, close to the homing clamping grooves 29, of the two ends of the layered radio and dust removal net 50, the width of each magnet layer 52 is the same as that of the homing clamping grooves 29, the layered radio and dust removal net 50 is overlapped with the homing clamping grooves 29 through the magnet layers 52, the layered radio and dust removal net 50 is convenient to unfold and fix, the installation efficiency of the device is improved, the magnet layers 52 are uniformly provided with the magnet blocks 53, so that the layered radio and dust removal net 50 can be rolled up and stored and is convenient to transport and unfold, clear water is injected into the circulating water cavity 5 through the water injection port 7, the frequency of the variable frequency water pump can be adjusted according to the highest position of the rolling curtain structure 37 through the control panel, the heights of water beams injected from the water outlet pipes 8 are different, and the water beams are further conveyed into the arc-shaped conveying pipes 34 through the conveying pipes 32, the water beam is sprayed into the connecting conveying pipe 36 by the side pressure at the top of the arc-shaped conveying pipe 34, the top spray valve 46 and the leakage bottom valve 47 are controlled by the control panel, the water beam enters the top end of the flow distribution plate by opening the top spray valve 46, so that the water at the top of the flow distribution plate is sprayed out by the first spray pipe 48, and then the air above the device is dedusted, meanwhile, the silencing range is expanded by using water mist, the water beam is sprayed to the bottom of the flow distribution plate by opening the leakage bottom valve 47, because the layered sound receiving and dedusting net 50 is hung at the bottom of the flow distribution pipe 44, the sound vibration dense net 54 is arranged at both sides of the layered sound receiving and dedusting net 50, when the building makes noise, the sound vibration energy of the sound vibration dense net 54 can be collected through the sound vibration dense net 54, so as to drive the sound vibration dense net 54 to generate vibration with different frequencies, because the water leakage 55 clamped between the sound vibration dense nets 54 is arranged at the center of the layered sound receiving and dedusting net 50, the water leakage grid net 55 is provided with a plurality of water leakage mesh holes 56, the side walls of the water leakage mesh holes 56 are uniformly provided with a plurality of water leakage holes 57, when water flow falls into the water leakage grid net 55 through the water spraying holes 49, the water flow is uniformly divided into a plurality of water drops through the water leakage holes 57 distributed on the water leakage mesh holes 56, water drops in the layered sound-receiving and dust-removing net 50 are vibrated at the same frequency due to the vibration of the sound-vibration dense net 54, so that a water curtain is formed in the layered sound-receiving and dust-removing net 50, further, noise around a construction site is collected, noise pollution of the construction site to the surrounding environment is reduced, meanwhile, when dust on the construction site is close to the layered sound-receiving and dust-removing net 50, the dust is fused into the water curtain, due to the gravity, the dust mixed in the dust continuously falls, due to the vibration of the sound-vibration dense net 54, the falling of muddy water can be accelerated, and muddy water accumulation of the water in the water leakage holes 57 is avoided, after in muddy water whereabouts filtering drawer 59, make muddy water carry out the mud sediment through the filter layer through the suction pump and filter, and change the filter layer at any time and wash the filter layer through filtering drawer 59, thereby make the filter layer can used repeatedly, the partial clear water after the filtration is spout through second injection spray pipe 61, avoid the dust to spread out the construction workplace from the bottom gap of this device, the efficiency of dust removal radio reception has been improved, because the back flow of drawing water communicates with recovery inhalant canal 60, the bottom and the inlet tube 9 screwed connection of the back flow of drawing water, thereby make the clear water after the filtration enter into circulating water chamber 5 again, make water resource reuse.

In conclusion, by means of the technical scheme of the invention, the invention effectively ensures that the invention utilizes the moving wheels to transport and move the support main body to the edge of the construction site, thereby facilitating the position change of the whole device, flexibly jumping the position of the device according to the construction process, further dividing the range of the construction site, gradually reducing the included angle between the first cross plate and the second cross plate by stirring the first unfolding handle, thereby enabling the support conveying plates to be evenly unfolded, enabling the support conveying plate at the top to drive the roller shutter structure to ascend to the top, facilitating the installation and the lifting of the roller shutter structure, having simple operation, when the roller shutter structure ascends to the top, enabling the support conveying plates to rotate through the guide structure, thereby enabling the support conveying plates to be spliced seamlessly, and because the difference between the maximum diameter of the leak-proof silica gel ring and the inner diameter of the conveying pipeline is 1 mm, preventing the side spraying to the outside of the support conveying plate when water flow impacts, the humidification to the external road is avoided, the safety of the device is improved, the bottom end of the conveying pipeline of the supporting conveying plate positioned at the bottom is in spiral connection with the water outlet pipe, so that the water outlet pipe sends water beams into the conveying pipeline, after the water beams reach the arc-shaped conveying pipe through the conveying pipeline, the water beams enter the connecting conveying pipe by the side pressure at the top of the arc-shaped conveying pipe, the highest position of the water beam transmission can be adjusted by increasing and reducing the number of the supporting conveying plates, the trouble caused by the replacement of the water pipe is avoided, because the magnet layers are uniformly arranged at the two ends of the layered radio and dust removal net close to one side of the homing clamping grooves, the width of the magnet layers is the same as that of the homing clamping grooves, the layered radio and dust removal net is overlapped with the homing clamping grooves through the magnet layers, the unfolding and the fixation of the layered radio and dust removal net are convenient, the installation efficiency of the device is improved, and a plurality of magnet blocks are uniformly arranged in the magnet layers, the layered radio and dust removal net can be rolled up and stored and is convenient to transport and unfold, the frequency of the variable frequency water pump can be adjusted according to the highest position of the roller shutter structure through the control panel, so that the heights of water beams ejected by the water outlet pipes are different, the water beams are conveyed into the arc-shaped conveying pipes through the conveying pipes, the supporting and conveying plates can convey clear water like the roller shutter structure while supporting the layered radio and dust removal net, dragging water pipes are avoided, the structure is simple, the splicing is convenient, the water beams enter the top end of the splitter plate by opening the top spray valve, so that the first spray pipe sprays water at the top of the splitter plate, air above the device is further dedusted, meanwhile, the silencing range is expanded by utilizing water mist, the water beams are sprayed to the bottom of the splitter plate by opening the leakage bottom valve, the layered radio and dust removal net is hung at the bottom of the splitter plate, and the sound vibration dense nets are arranged on two sides of the layered radio and dust removal net, when noise is generated in a construction site, the sound vibration energy can be collected through the sound vibration dense net, so that the sound vibration dense net is driven to vibrate at different frequencies, the water leakage grid clamped between the sound vibration dense nets is arranged at the central position of the layered sound reception and dust removal net, the water leakage grid is provided with a plurality of water leakage meshes, the side walls of the water leakage meshes are uniformly provided with a plurality of water leakage holes, water flow is uniformly divided into a plurality of water drops through the water leakage holes distributed on the water leakage meshes, water drops in the layered sound reception and dust removal net vibrate at the same frequency due to the vibration of the sound vibration dense net, so that a water curtain is formed in the layered sound reception and dust removal net, noise around the construction site is collected, noise pollution of the construction site to the surrounding environment is reduced, dust is fused into the water curtain after the dust of the construction site is close to the layered sound reception and dust removal net, and muddy water mixed with the dust continuously falls due to gravity, owing to receive the vibrations of the sound vibrations dense net, can accelerate the whereabouts of muddy water, avoid leaking the hole and take place muddy water and pile up, after muddy water falls in filtering the drawer, make muddy water carry out the sediment through the filter layer through the suction pump and filter, and change the filter layer and rinse the filter layer at any time through filtering the drawer, thereby make the filter layer can used repeatedly, the partial clear water after the filtration spouts through the second spray pipe, avoid the dust to spread out the construction work place from the bottom gap of this device, the efficiency of dust removal radio reception has been improved, owing to draw water the back flow and retrieve inlet channel intercommunication, the bottom and the inlet tube screwed connection of the back flow of drawing water, thereby make the clear water after the filtration enter into the circulating water intracavity again, make water resource reuse, energy-concerving and environment-protective beneficial effect.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.