CN113652979A

CN113652979A - Adjustable windbreak for bridge construction

Info

Publication number: CN113652979A
Application number: CN202110980189.5A
Authority: CN
Inventors: 袁野; 李惠
Original assignee: Jilin Jianzhu University
Current assignee: Dragon Totem Technology Hefei Co ltd; Hefei Longzhi Electromechanical Technology Co ltd
Priority date: 2021-08-25
Filing date: 2021-08-25
Publication date: 2021-11-16
Anticipated expiration: 2041-08-25
Also published as: CN113652979B

Abstract

The invention is suitable for the technical field of bridge facilities, and particularly relates to an adjustable windbreak for bridge construction, which comprises the following components: the air guide plate comprises an installation frame, wherein at least one group of supporting plates are installed on the installation frame, at least two groups of air guide plates are rotatably installed on the supporting plates, and the air guide plates are L-shaped; the air guide mechanism is fixedly arranged on the mounting frame and used for adjusting the wind direction by driving the air guide plates to synchronously rotate; the power generation mechanism is installed on one side, far away from the air guide mechanism, of the mounting frame and is used for electrically connecting the air guide mechanism, and the power generation mechanism is used for generating electricity through wind power and disturbing air flow. The wind guide plate is arranged to change the direction of the incoming wind, so that the incoming wind is guided to the power generation mechanism, the power generation mechanism is used for generating power to supply the wind guide mechanism to work, the wind guide mechanism drives the wind guide plate to adjust according to the wind direction, the air flows impact with each other, the effect of disturbing the air flows is achieved, the direct action on a vehicle is avoided, and the driving safety is improved.

Description

Adjustable windbreak for bridge construction

Technical Field

The invention belongs to the technical field of bridge facilities, and particularly relates to an adjustable windbreak for bridge construction.

Background

The bridge wind barrier is a device arranged on two sides or a central separation belt of a bridge in a strong wind generation area to reduce the influence of side wind on bridge deck driving safety, improve bridge deck driving environment and improve effective passing time of the bridge.

In current bridge, the windbreak is the device that sets up in the bridge both sides, and under the water conservancy diversion effect of windbreak, the air current will be dispersed, and partly air current can be directly blockked, and another part air current then can pass through in the bridge traffic lane of windbreak clearance gets into, because the air current is dispersed, has reduced the influence to the vehicle that traveles.

However, the existing bridge windbreak has a fixed structure, so that the wind direction cannot be adjusted, and thus, the air flow entering the traffic lane affects the vehicle, and the transverse wind greatly affects the driving of the vehicle, so that the vehicle is difficult to control.

Disclosure of Invention

The embodiment of the invention aims to provide an adjustable wind barrier for bridge construction, and aims to solve the technical problems in the third section of the background technology.

The embodiment of the invention is realized in such a way that the adjustable windbreak for bridge construction comprises:

the air guide plate comprises an installation frame, wherein at least one group of supporting plates are installed on the installation frame, at least two groups of air guide plates are rotatably installed on the supporting plates, and the air guide plates are L-shaped;

the air guide mechanism is fixedly arranged on the mounting frame and used for adjusting the wind direction by driving the air guide plates to synchronously rotate;

the power generation mechanism is installed on one side, far away from the air guide mechanism, of the mounting frame and is used for electrically connecting the air guide mechanism, and the power generation mechanism is used for generating electricity through wind power and disturbing air flow.

Preferably, the air guide mechanism includes:

the wind direction identification structure is fixedly arranged on the mounting frame and used for detecting an included angle between wind blowing to the bridge from two sides of the bridge and a horizontal plane;

the wind direction adjusting structure is fixedly installed on one side, far away from the power generation mechanism, of the mounting frame and is electrically connected with the wind direction identification structure, and the wind direction adjusting structure is used for adjusting the angle of the wind deflector according to the included angle between wind blowing to the bridge and the horizontal plane.

Preferably, wind direction identification structure includes windshield and response piece, the windshield is provided with two sets ofly, and two sets of windshield symmetry sets up, and equal fixed mounting is on the mounting bracket, and windshield place plane is parallel with the current direction of bridge, rotates between two sets of windshields and installs a set of pivot, and fixed mounting has the rotation cover in the pivot, and fixed mounting has the wind direction pole on rotating the cover, and the one end of wind direction pole is fixed with the inductive head, and other end fixed mounting has the tailboard, the tailboard is the V type, and opens the side and keeps away from the inductive head, and response piece fixed mounting is on a set of windshield.

Preferably, the wind direction adjusting structure comprises a motor and a screw, the motor is fixedly mounted on the mounting frame, the screw is rotatably mounted on the mounting frame and perpendicular to the plane of the bridge, at least two sets of screw sleeves are connected to the screw in a matched manner, a sliding block is rotatably connected to the screw sleeves, an adjusting plate is fixedly mounted on the air deflector far away from the opening side, a guide groove is formed in the adjusting plate, and the sliding block is slidably mounted in the guide groove.

Preferably, the power generation mechanism includes:

the wind power generation structure is fixedly arranged on the mounting frame and is used for generating power through wind power and disturbing airflow;

ponding clearance structure, ponding clearance structure fixed mounting is on the mounting bracket, and is connected with the transmission of wind power generation structure for clean ponding.

Preferably, the wind power generation structure includes mounting box and magnetic path, and the mounting box is provided with the multiunit, a set of electricity generation roller is installed to the mounting box internal rotation, and the windward plate is installed to electricity generation roller external diameter, is provided with the opening on the mounting box, and the opening is exposed to some follow of electricity generation roller, and adjacent two sets of mounting box opening opposite direction, electricity generation roller level set up, and the coil is installed to the one end of electricity generation roller, and the mounting box is close to the one end internal diameter fixed mounting of coil and is had the magnetic path, the magnetic path is provided with the protection casing outward.

Preferably, ponding clearance structure is including sweeping the water roller, sweep the water roller and rotate and install on the mounting bracket, sweep and be provided with the brush hair on the water roller, sweep the water roller and be connected with wind power generation structural drive.

The adjustable wind barrier for bridge construction provided by the embodiment of the invention has the advantages that the structure is simple, the design is reasonable, the direction of incoming wind can be changed by arranging the wind deflector, so that the wind is guided to the power generation mechanism, the power generation mechanism is utilized for generating power for the wind deflector to work, the wind deflector is driven by the wind deflector to adjust according to the wind direction, the air flows impact with each other, the effect of disturbing the air flows is achieved, the direct action on a vehicle is avoided, and the driving safety is improved.

Drawings

Fig. 1 is a schematic structural view of an adjustable windbreak for bridge construction according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a wind power generation structure according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a wind direction identification structure according to an embodiment of the present invention;

fig. 4 is a schematic partial structural diagram of a wind direction identification structure according to an embodiment of the present invention;

fig. 5 is a schematic structural view of an air deflector according to an embodiment of the present invention.

In the drawings: 1. a base plate; 2. a rib plate; 3. a connecting plate; 4. mounting a box; 5. a mounting seat; 6. a windshield; 7. an induction sheet; 8. rotating the sleeve; 9. an inductive head; 10. a tail plate; 11. an air deflector; 12. an adjusting plate; 13. a guide groove; 14. a slider; 15. a screw sleeve; 16. a support plate; 17. a screw; 18. a motor; 19. a protective cover; 20. a magnetic block; 21. a windward plate; 22. a pulley; 23. a transmission belt; 24. a water sweeping roller; 25. a water bar; 26. a water discharge tank; 27. a coil; 28. brushing; 29. a connecting pin; 30. connecting sleeves; 100. an air guide mechanism; 101. a wind direction adjusting structure; 102. a wind direction identification structure; 200. a power generation mechanism; 201. a wind power generation structure; 202. ponding clearance structure.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1, a schematic structural diagram of an adjustable windbreak for bridge construction according to an embodiment of the present invention is provided, where the adjustable windbreak for bridge construction includes:

the air guide plate comprises a mounting frame, wherein at least one group of supporting plates 16 are arranged on the mounting frame, at least two groups of air guide plates 11 are rotatably arranged on the supporting plates 16, and the air guide plates 11 are L-shaped;

the air guide mechanism 100 is fixedly arranged on the mounting frame and used for adjusting the wind direction by driving the air guide plate 11 to rotate synchronously;

the power generation mechanism 200 is installed on one side of the mounting frame far away from the air guide mechanism 100 and used for electrically connecting the air guide mechanism 100, and the power generation mechanism 200 is used for generating electricity through wind power and disturbing air flow.

In the embodiment, the mounting rack is fixed on a bridge through a bottom plate 1, the mounting rack is connected with the bottom plate 1 through a rib plate 2, the rib plate 2 is arranged on one side close to a traffic lane of the bridge, the air deflector 11 is in an L shape, the opening side of the air deflector faces the traffic lane, and the opening angle is 90 degrees; in practical use, the air flow from the two sides of the bridge is directly blown to the wind guide mechanism 100, the wind direction is detected through the wind guide mechanism 100, and the wind guide plates 11 are controlled to rotate according to the detected wind direction, so that the direction of the air flow is changed, for example, the air flow is blown to the bridge along the horizontal plane, at the moment, a part of the air flow is directly contacted with the wind guide plates 11, the part of the air flow is divided into two parts, then the air flow between two adjacent wind guide plates 11 will be intersected, so that turbulent flow is formed, the horizontal air flow between the wind guide plates 11 is contacted with the power generation mechanism 200 together with the turbulent flow, so that the power generation mechanism 200 is driven to generate power, meanwhile, the air flow is disturbed again, and accordingly, the phenomenon that a strand of air flow is directly blown to the vehicle from the side face is avoided.

As shown in fig. 1, as a preferred embodiment of the present invention, the air guide mechanism 100 includes:

the wind direction identification structure 102 is fixedly arranged on the mounting frame and used for detecting an included angle between wind blowing to the bridge from two sides of the bridge and a horizontal plane;

the wind direction adjusting structure 101 is fixedly installed on one side, far away from the power generation mechanism 200, of the installation frame, and is electrically connected with the wind direction identifying structure 102, and is used for adjusting the angle of the wind deflector 11 according to the included angle between wind blowing to the bridge and the horizontal plane.

In the embodiment, in actual use, the airflow is directly blown, the wind direction recognition structure 102 recognizes the direction of the airflow, and as for the airflow, the wind direction perpendicular to the bridge traveling road surface does not cause difficulty in controlling the automobile, and similarly, the airflow parallel to the bridge passing direction only affects the traveling resistance of the automobile and does not cause difficulty in controlling the automobile, only the direction of the airflow blown to the side surface of the automobile needs to be detected, and then the wind direction adjustment structure 101 is utilized to drive the wind deflector 11 to rotate, and the wind deflector 11 disturbs the airflow; the air deflector 11 can also be used to guide the air flow to the upper part of the vehicle, so as to avoid the air flow impacting the two sides of the vehicle.

As shown in fig. 1, 3 and 4, as a preferred embodiment of the present invention, the wind direction identification structure 102 includes two groups of wind shields 6 and induction sheets 7, the wind shields 6 are provided with two groups, the two groups of wind shields 6 are symmetrically arranged and both fixedly mounted on a mounting rack, a plane of the wind shields 6 is parallel to a passing direction of the bridge, a group of rotating shafts is rotatably mounted between the two groups of wind shields 6, a rotating sleeve 8 is fixedly mounted on the rotating shafts, a wind direction rod is fixedly mounted on the rotating sleeve 8, an induction head 9 is fixed at one end of the wind direction rod, a tail plate 10 is fixedly mounted at the other end of the wind direction rod, the tail plate 10 is V-shaped, the opening side of the tail plate is far away from the induction head 9, and the induction sheets 7 are fixedly mounted on the group of wind shields 6.

As shown in fig. 1 and 5, as a preferred embodiment of the present invention, the wind direction adjusting structure 101 includes a motor 18 and a screw 17, the motor 18 is fixedly installed on a mounting frame, the screw 17 is rotatably installed on the mounting frame and is perpendicular to a plane of a bridge, at least two sets of screw sleeves 15 are cooperatively connected to the screw 17, a sliding block 14 is rotatably connected to the screw sleeves 15, an adjusting plate 12 is fixedly installed on the air deflector 11 away from an opening side, a guide groove 13 is formed on the adjusting plate 12, and the sliding block 14 is slidably installed in the guide groove 13.

In this embodiment, the wind shields 6 are fixed at the top of the mounting frame through the mounting base 5, a gap is formed between the two wind shields 6, airflow enters the gap, and when the wind shields 6 are used, the airflow parallel to the passing direction of the bridge can be blocked by the wind shields 6, and the airflow entering the gap between the two wind shields 6 can contact with the tail plate 10, so that the tail plate 10 drives the rotating shaft to rotate until the rotating shaft is parallel to the airflow direction, at the moment, the corresponding positions of the induction head 9 and the induction sheet 7 are changed, so that the airflow direction at the moment is obtained, then, the motor 18 drives the screw 17 to rotate, at the moment, the screw sleeve 15 can lift relative to the screw 17, and the screw sleeve 15 can drive the sliding block 14 to slide in the guide groove 13, so that the adjusting plate 12 is indirectly driven to rotate relative to the supporting plate 16, and the angle control over the air deflector 11 is realized.

As shown in fig. 1, as a preferred embodiment of the present invention, the power generation mechanism 200 includes:

the wind power generation structure 201 is fixedly arranged on the mounting frame and is used for generating electricity through wind power and disturbing airflow;

ponding clearance structure 202, ponding clearance structure 202 fixed mounting is on the mounting bracket, and is connected with wind power generation structure 201 transmission for clean ponding.

In this embodiment, if the wind power generation structure 201 is directly installed, the airflow drives the wind power generation structure 201 to generate power with weaker power, and during actual use, the airflow is gathered under the control of the air deflector 11, and the gathered airflow intensively impacts the wind power generation structure 201 to generate electric energy, a power supply battery can be arranged on the mounting frame, the electric energy obtained by power generation is stored in the mounting frame, and in the working process of the wind power generation structure 201, the accumulated water cleaning structure 202 is driven to work, so that the accumulated water is cleaned.

As shown in fig. 1 and fig. 2, as a preferred embodiment of the present invention, the wind power generation structure 201 includes a mounting box 4 and magnetic blocks 20, the mounting box 4 is provided with a plurality of sets, a set of power generation rollers is rotatably mounted in the mounting box 4, an windward plate 21 is mounted on the outer diameter of each power generation roller, an opening is provided on the mounting box 4, a part of each power generation roller is exposed from the opening, the openings of two adjacent sets of mounting boxes 4 are opposite in direction, the power generation rollers are horizontally arranged, a coil 27 is mounted at one end of each power generation roller, the magnetic block 20 is fixedly mounted on the inner diameter of one end of the mounting box 4 close to the coil, and a protective cover 19 is disposed outside the magnetic block 20.

As shown in fig. 1 and fig. 2, as a preferred embodiment of the present invention, the accumulated water cleaning structure 202 includes a water sweeping roller 24, the water sweeping roller 24 is rotatably mounted on a mounting frame, bristles 28 are arranged on the water sweeping roller 24, and the water sweeping roller 24 is in transmission connection with the wind power generation structure 201.

In this embodiment, the bottom plate 1 is further provided with water bars 25, the water bars 25 are provided with a plurality of groups, the water bars 25 are arranged in parallel and are all parallel to the passing direction of the bridge, the water bar 25 close to the bridge lane is higher than the water bar 25 far away from the bridge lane, and a drainage groove 26 is arranged on the bottom plate 1 at one side of the water bar 25 far away from the bridge lane; when in actual use, high-speed airflow blows the windward plate 21 to rotate, the windward plate 21 drives the electricity generation roller to rotate, the electricity generation roller drives the magnetic induction line formed by the coil 27 and the cutting magnetic block 20, thereby generating current, the electricity supply battery is charged by using the current, because the opening directions of the two adjacent groups of installation boxes 4 are opposite, the stress balance of the installation boxes 4 can be ensured, under the effect of the windward plate 21, the airflow is further disordered, and when raining, the electricity generation roller drives the water sweeping roller 24 to rotate through the driving belt 23 and the belt wheel 22, accumulated water is swept to the drainage groove 26 by using the brush bristles 28 on the water sweeping roller 24, and the water retaining strip 25 is used for placing accumulated water backflow.

In this embodiment, for convenience of installation, the connecting pins 29 and the connecting sleeves 30 are respectively disposed at two ends of the mounting frame, and when the installation is performed, the connecting pins 29 on two adjacent sets of mounting frames are inserted into the connecting sleeves 30.

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 invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. Bridge construction is with adjustable windbreak, its characterized in that, bridge construction includes with adjustable windbreak:

2. The adjustable wind barrier for bridge construction according to claim 1, wherein the wind guide mechanism comprises:

3. The adjustable windbreak for bridge construction according to claim 2, wherein the wind direction identification structure comprises two groups of windshields and induction sheets, the windshields are symmetrically arranged and fixedly mounted on the mounting frame, the plane of the windshields is parallel to the passing direction of the bridge, a group of rotating shafts are rotatably mounted between the two groups of windshields, rotating sleeves are fixedly mounted on the rotating shafts, wind direction rods are fixedly mounted on the rotating sleeves, induction heads are fixed on one ends of the wind direction rods, tail plates are fixedly mounted on the other ends of the wind direction rods, the tail plates are V-shaped, the induction heads are far away from the opening sides, and the induction sheets are fixedly mounted on the group of windshields.

4. The adjustable windbreak for bridge construction according to claim 2, wherein the wind direction adjusting structure comprises a motor and a screw, the motor is fixedly mounted on the mounting frame, the screw is rotatably mounted on the mounting frame and is perpendicular to the plane of the bridge, at least two sets of screw sleeves are connected to the screw in a matching manner, a sliding block is rotatably connected to the screw sleeves, an adjusting plate is fixedly mounted on the far side of the opening of the wind deflector, a guide groove is formed in the adjusting plate, and the sliding block is slidably mounted in the guide groove.

5. The adjustable wind barrier for bridge construction according to claim 1, wherein the power generation mechanism comprises:

6. The adjustable windbreak for bridge construction according to claim 5, wherein the wind power generation structure comprises a mounting box and magnetic blocks, the mounting box is provided with a plurality of groups, a group of power generation rollers are rotatably mounted in the mounting box, windward plates are mounted on the outer diameters of the power generation rollers, openings are formed in the mounting box, a part of each power generation roller is exposed out of the openings, the openings of two adjacent groups of mounting boxes are opposite in direction, the power generation rollers are horizontally arranged, a coil is mounted at one end of each power generation roller, the magnetic blocks are fixedly mounted on the inner diameter of one end, close to the coil, of the mounting box, and a protective cover is arranged outside the magnetic blocks.

7. The adjustable windbreak for bridge construction according to claim 5, wherein the accumulated water cleaning structure comprises a water sweeping roller, the water sweeping roller is rotatably mounted on the mounting frame, bristles are arranged on the water sweeping roller, and the water sweeping roller is in transmission connection with the wind power generation structure.