CN111535487A

CN111535487A - Adjustable interval ventilation's energy-conserving building activity photovoltaic curtain wall construction

Info

Publication number: CN111535487A
Application number: CN202010440431.5A
Authority: CN
Inventors: 姚开放
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-22
Filing date: 2020-05-22
Publication date: 2020-08-14

Abstract

The invention discloses an energy-saving building movable photovoltaic curtain wall structure capable of adjusting interval ventilation, which comprises a mounting frame, a fixed column, a photovoltaic panel and a servo motor, wherein the right side of the mounting frame is fixedly connected with the fixed column, a movable rod is arranged inside the right side of the fixed column, a circular gear is arranged on a driven rod, the middle part of the drive gear is provided with a drive rod in a penetrating mode, the upper end of a linkage bevel gear is connected with a drive bevel gear in a meshing mode, the middle part of the upper end of a limiting plate is fixedly provided with a traction rope, a baffle is arranged at the lower end of a rain collecting box, the middle part of the upper end of the rain collecting box is provided. This energy-conserving building activity photovoltaic curtain wall structure that adjustable interval ventilates can conveniently adjust the interval that opens and shuts between photovoltaic board and the mounting bracket, improves the utilization ratio to the light energy, can clean the dust of piling up the adhesion on the photovoltaic board simultaneously, conveniently utilizes the rainwater to wash the water economy resource to the photovoltaic board.

Description

Adjustable interval ventilation's energy-conserving building activity photovoltaic curtain wall construction

Technical Field

The invention relates to the technical field of energy-saving buildings, in particular to an energy-saving building movable photovoltaic curtain wall structure capable of adjusting interval ventilation.

Background

The energy-saving building is a basic method following climate design and energy saving, after researches such as orientation, space, solar radiation and external air environment are carried out on the building, the low-energy-consumption building is designed and manufactured, at present, most of energy-saving building outer walls are designed by combining a photovoltaic power generation technology and a traditional curtain wall structure, the photovoltaic curtain wall design can not only have the performance of the traditional common curtain wall, but also can convert light energy into electric energy for utilization, so that the utilization rate of renewable energy sources is improved, and the overall performance of the energy-saving building is comprehensively improved.

For example, an energy-saving building photovoltaic curtain wall with high light energy utilization rate is disclosed as CN209799091U, wherein an adjusting device a and an adjusting device B are provided, the inclination of the solar panel is realized by the mutual matching of the adjusting device a and the adjusting device B, in order to match the inclination angle of the solar panel with the sunlight photograph, the rotation angle of the solar panel and the moving time of the solar panel can be controlled by starting the motors in the adjusting device a and the adjusting device B at regular time, so that the inclination direction of the solar panel is matched with the irradiation angle of the sunlight, and the purpose of utilizing the solar energy to the maximum is realized, although the utilization rate of the light energy can be improved by changing the opening and closing interval between the solar panel and the fixing plate through the steps, because the energy-saving building photovoltaic curtain wall is arranged outside the building, a large amount of dust can be adhered and accumulated, thereby the dust can produce effects such as sheltering from, absorbing and reflection to the light at piling up on the solar photovoltaic board, and then also can influence photovoltaic power generation's efficiency under the effect of dust equally, reduces the utilization ratio of light energy.

To the above problems, innovative design is urgently needed on the basis of the original movable photovoltaic curtain wall structure.

Disclosure of Invention

The invention aims to provide an energy-saving building movable photovoltaic curtain wall structure capable of adjusting interval ventilation, and aims to solve the problems that an energy-saving building photovoltaic curtain wall is arranged outside a building, a large amount of dust can be adhered and accumulated on a solar photovoltaic panel after long-time use, the accumulation of the dust on the solar photovoltaic panel can shield, absorb and reflect light rays, the photovoltaic power generation efficiency can be affected under the action of the dust, and the utilization rate of light energy is reduced.

In order to achieve the purpose, the invention provides the following technical scheme: an energy-saving building movable photovoltaic curtain wall structure capable of adjusting interval ventilation comprises a mounting frame, a fixed column, a photovoltaic panel and a servo motor, wherein the right side of the mounting frame is fixedly connected with the fixed column, a movable rod is arranged inside the right side of the fixed column, the right end of the movable rod is arranged on the inner side of the photovoltaic panel, a side rod is fixedly arranged on the side of the photovoltaic panel, a cleaning plate is arranged on the side rod, a reset spring is arranged between the cleaning plate and the end part of the side rod, a driving rope is fixedly arranged at the upper end of the cleaning plate, the end part of the driving rope is wound and connected onto a driven rod, a circular gear is arranged on the driven rod, a transmission gear is arranged on the inner side of the circular gear, a transmission rod is arranged in the middle of the transmission gear in a penetrating manner, a rotating shaft is arranged in the middle of the driving bevel gear, the left end of the rotating shaft is fixedly arranged on a servo motor, the servo motor is fixedly arranged in the protective box, an adjusting mechanism is arranged at the right end of the rotating shaft, a limiting plate is arranged on the outer side of the adjusting mechanism, a traction rope is fixedly arranged in the middle of the upper end of the limiting plate, the upper end of the traction rope is arranged on the left side of a baffle plate, the baffle plate is arranged at the lower end of a rain collecting box, the rain collecting box and the baffle plate are connected with each other through a compression spring, an induction transverse plate is arranged in the middle of the upper end of the rain collecting box, a rainwater sensor is arranged at the lower end of the induction transverse plate, an electric telescopic rod is arranged at the lower end of the rainwater sensor, the lower end of the electric telescopic rod is fixedly arranged in the middle of, be connected with the vortex spring between the avris in curb plate and collection rain case, and the collection chamber has been seted up to collection rain case's lower extreme inside, the upper end avris in collection chamber has seted up the leakage mouth, and the inside fixed mounting in collection chamber has the filter screen to the through-hole has been seted up on the lower extreme right side in collection chamber.

Preferably, the side rods are symmetrically arranged about a vertical central axis of the photovoltaic panel, outer walls of the side rods and inner walls of the side edges of the cleaning plates are attached to each other, and a sliding connection structure is formed between the cleaning plates and the side rods.

Preferably, the lower end of the cleaning plate and the upper end of the photovoltaic plate are attached to each other, the cleaning plate and the driven rods are connected to each other through a driving rope, and the driven rods are symmetrically arranged about a transverse central axis of the protective box.

Preferably, the adjusting mechanism comprises a movable disc, a connecting rod, a sliding plate and a supporting rod, wherein the movable disc and the sliding plate are movably connected with the end part of the connecting rod, and the right end of the supporting rod is connected with the inner side of the photovoltaic panel in a hinged mode.

Preferably, the outer wall of the side of the sliding plate and the inner wall of the limiting plate are mutually attached, and a sliding connection structure is formed between the sliding plate and the limiting plate.

Preferably, the upper end of the baffle is attached to the lower end of the rain-collecting box, the lower ends of the baffle and the rain-collecting box form a sliding connection structure, and the baffle and the sliding plate are connected with each other through a traction rope.

Preferably, the movable rod is symmetrically arranged about the vertical central axis of the extrusion block, the inner end of the movable rod and the abutting surface at the side of the extrusion block are arranged to be of a bevel edge structure, and a sliding connection structure is formed between the movable rod and the upper end of the collection cavity.

Preferably, the side plates are symmetrically arranged about a vertical central axis of the rain collecting box, a rotating structure is formed between the lower ends of the side plates and the side of the rain collecting box, and the inner sides of the side plates are connected with the outer ends of the movable rods in a hinged mode.

Compared with the prior art, the invention has the beneficial effects that: the energy-saving building movable photovoltaic curtain wall structure with adjustable interval ventilation can conveniently adjust the opening and closing interval between a photovoltaic plate and a mounting frame, improve the utilization rate of light energy, clean dust accumulated on the photovoltaic plate, and conveniently clean the photovoltaic plate by rainwater, thereby saving water resources;

1. the adjusting mechanism is arranged, the sliding plate can slide downwards on the inner side of the limiting plate under the action of the connecting rod due to the rotation of the movable disc, the photovoltaic panel can rotate due to the movement of the sliding plate on the connecting rod which is hinged to the connecting rod, and the photovoltaic panel can rotate along with the irradiation angle of sunlight, so that the utilization rate of light energy is improved;

2. be provided with cleaning brush board, when servo motor passes through adjustment mechanism and drives the photovoltaic board and rotate, make the transfer line rotate under initiative bevel gear and linkage bevel gear's effect, the rotation of transfer line can make the driven lever rotate under circular gear and drive gear's effect, thereby the rotation of driven lever can stimulate cleaning board to slide on the side lever through the winding to the driving rope with put long, through gliding cleaning board and then can play the effect of cleaning to the surperficial dust of photovoltaic board

3. The rainwater sensor is arranged, the electric telescopic rod can be started through the rainwater sensor when raining, so that the electric telescopic rod moves downwards, the movable rod can move towards the outer side of the rainwater collection box under the action of the bevel edge after the electric telescopic rod moves downwards, the movable rod can move to push the side plate to incline towards the outer side at the moment, and rainwater can conveniently enter the rainwater collection cavity for storage through the inclined side plate;

4. be provided with the baffle, the upper end of baffle and the lower extreme of collection rain case are laminated each other, thereby can play the effect of blockking to the rainwater in collecting the chamber, when adjustment mechanism drive photovoltaic board rotated, the sliding plate downstream, can move the baffle under the effect of haulage rope behind the sliding plate downstream, make the baffle slide left at the lower extreme of collection rain case, when the baffle slides left and does not play to block the effect to the through-hole, on collecting the rainwater in the chamber and passing through the through-hole flow to photovoltaic board, can improve the clean effect to photovoltaic board through the rainwater.

Drawings

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

FIG. 2 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is a schematic cross-sectional view of the protective case of the present invention;

FIG. 4 is a side view of the driven link and the driving link according to the present invention;

FIG. 5 is a side view of the movable disk and the connecting rod of the present invention;

FIG. 6 is a schematic top view of a photovoltaic panel and a cleaning panel according to the present invention;

FIG. 7 is a schematic sectional view of the rain collecting tank according to the present invention;

fig. 8 is a schematic sectional view showing the rain collecting box and the side plate according to the present invention.

In the figure: 1. a mounting frame; 2. fixing a column; 3. a movable rod; 4. a photovoltaic panel; 5. a side lever; 6. cleaning the plate; 7. a return spring; 8. a drive rope; 9. a driven lever; 10. a circular gear; 11. a transmission gear; 12. a transmission rod; 13. linkage bevel gear; 14. a drive bevel gear; 15. a rotating shaft; 16. a servo motor; 17. a protective box; 18. an adjustment mechanism; 1801. a movable disc; 1802. a connecting rod; 1803. a sliding plate; 1804. a support bar; 19. a limiting plate; 20. a hauling rope; 21. a baffle plate; 22. a compression spring; 23. a rain collecting box; 24. sensing a transverse plate; 25. a rain sensor; 26. an electric telescopic rod; 27. extruding the block; 28. a travel bar; 29. a side plate; 30. a scroll spring; 31. a collection chamber; 32. a leakage port; 33. a filter screen; 34. and a through hole.

Detailed Description

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

Referring to fig. 1-8, the present invention provides a technical solution: an energy-saving building movable photovoltaic curtain wall structure with adjustable interval ventilation comprises an installation frame 1, fixed columns 2, a movable rod 3, a photovoltaic panel 4, side rods 5, a cleaning plate 6, a return spring 7, a driving rope 8, a driven rod 9, a circular gear 10, a transmission gear 11, a transmission rod 12, a linkage bevel gear 13, a driving bevel gear 14, a rotating shaft 15, a servo motor 16, a protection box 17, an adjusting mechanism 18, a limiting plate 19, a traction rope 20, a baffle plate 21, a compression spring 22, a rain collecting box 23, an induction transverse plate 24, a rain sensor 25, an electric telescopic rod 26, an extrusion block 27, a movable rod 28, a side plate 29, a vortex spring 30, a collecting cavity 31, a leakage opening 32, a filter screen 33 and a through hole 34, wherein the fixed columns 2 are fixedly connected to the right side of the installation rack 1, the movable rod 3 is installed inside the right sides of the fixed columns 2, the right, a side lever 5 is fixedly installed at the side of the photovoltaic panel 4, a cleaning plate 6 is installed on the side lever 5, a return spring 7 is installed between the cleaning plate 6 and the end of the side lever 5, a driving rope 8 is fixedly installed at the upper end of the cleaning plate 6, the end of the driving rope 8 is wound and connected onto a driven rod 9, a circular gear 10 is installed on the driven rod 9, a transmission gear 11 is installed at the inner side of the circular gear 10, a transmission rod 12 is installed at the middle part of the transmission gear 11 in a penetrating manner, a linkage bevel gear 13 is installed at the upper end of the transmission rod 12, a driving bevel gear 14 is engaged and connected at the upper end of the linkage bevel gear 13, a rotating shaft 15 is installed at the middle part of the driving bevel gear 14, the left end of the rotating shaft 15 is fixedly installed on a servo motor 16, the servo motor 16 is fixedly installed inside, the middle part of the upper end of the limiting plate 19 is fixedly provided with a hauling rope 20, the upper end of the hauling rope 20 is arranged on the left side of the baffle plate 21, the baffle plate 21 is arranged on the lower end of the rain collecting box 23, the rain collecting box 23 and the baffle plate 21 are connected with each other through a compression spring 22, the middle part of the upper end of the rain collecting box 23 is provided with a sensing transverse plate 24, the lower end of the sensing transverse plate 24 is provided with a rain sensor 25, the lower end of the rain sensor 25 is provided with an electric telescopic rod 26, the lower end of the electric telescopic rod 26 is fixedly arranged on the middle part of the upper end of the extrusion block 27, the lower end side of the extrusion block 27 is provided with a movable rod 28, the outer end of the movable rod 28 is arranged on the inner side of the side plate 29, a vortex spring 30 is connected between the side plate 29 and the side of the rain collecting box 23, the interior of the lower, and the right side of the lower end of the collection chamber 31 is opened with a through hole 34.

Side lever 5 sets up about photovoltaic board 4's vertical axis symmetry, and the avris inner wall of the outer wall of side lever 5 and cleaning plate 6 laminates each other to constitute sliding connection structure between cleaning plate 6 and the side lever 5, thereby can conveniently wash photovoltaic board 4 through the slip of cleaning plate 6 on side lever 5.

The lower end of the cleaning plate 6 and the upper end of the photovoltaic panel 4 are attached to each other, the cleaning plate 6 and the driven rods 9 are connected to each other through the driving ropes 8, the driven rods 9 are symmetrically arranged about the transverse central axis of the protective box 17, and the cleaning plate 6 can be driven under the action of the driving ropes 8 through the rotation of the driven rods 9.

The adjusting mechanism 18 is composed of a movable disk 1801, a connecting rod 1802, a sliding plate 1803 and a supporting rod 1804, wherein the movable disk 1801 and the sliding plate 1803 are movably connected with the end of the connecting rod 1802, the right end of the supporting rod 1804 is connected with the inner side of the photovoltaic panel 4 in an articulated manner, and the movement of the sliding plate 1803 can push the photovoltaic panel 4 under the action of the supporting rod 1804, so that the photovoltaic panel 4 can rotate in a tilting manner.

The avris outer wall of sliding plate 1803 and the inner wall of limiting plate 19 laminate each other, and constitute sliding connection structure between sliding plate 1803 and the limiting plate 19, laminate each other between sliding plate 1803 and the limiting plate 19 and can improve the stability of sliding plate 1803 motion on the limiting plate 19.

The upper end of baffle 21 and the lower extreme of collection rain case 23 laminate each other, and constitute sliding connection structure between the lower extreme of baffle 21 and collection rain case 23 to through haulage rope 20 interconnect between baffle 21 and the sliding plate 1803, through the laminating each other between baffle 21 and the collection rain case 23, thereby can play the effect of blockking to the rainwater.

The movable rod 28 is symmetrically arranged about the vertical central axis of the squeezing block 27, the inner end of the movable rod 28 and the abutting surface at the side of the squeezing block 27 are arranged in a bevel edge structure, a sliding connection structure is formed between the movable rod 28 and the upper end of the collecting cavity 31, and the movement of the squeezing block 27 can enable the movable rod 28 to slide at the upper end of the collecting cavity 31 under the action of the bevel edge.

The side plates 29 are symmetrically arranged about the vertical central axis of the rain collecting box 23, a rotating structure is formed between the lower ends of the side plates 29 and the side edges of the rain collecting box 23, the inner sides of the side plates 29 and the outer ends of the moving rods 28 are connected in a hinged mode, and the moving rods 28 can push the side plates 29 to enable the lower ends of the side plates 29 to rotate outwards around the rain collecting box 23.

The working principle is as follows: when the energy-saving building movable photovoltaic curtain wall structure with adjustable interval ventilation is used, firstly, as shown in fig. 1-8, when raining in the sky, raindrops are sensed through the sensing transverse plate 24, when raindrops on the sensing transverse plate 24 are sensed by the rain sensor 25 with the model of YL-83, the electric telescopic rod 26 is driven to work, as shown in fig. 1, 7 and 8, at this time, the electric telescopic rod 26 moves downwards, the movement of the electric telescopic rod 26 can drive the extrusion block 27 to move synchronously, the movement of the extrusion block 27 can extrude the moving rod 28 under the action of the inclined edge, so that the moving rod 28 slides outwards at the upper end of the collection cavity 31, the movement of the moving rod 28 can push the side plate 29, so that the side plate 29 inclines towards the outer side of the rain collection cavity 23, and rainwater can conveniently enter the collection cavity 31 through the side plate 29 and the leakage hole 32 through the inclined structure formed by the side plate 29 and the rain collection cavity 23, the collected rainwater can be filtered through the filter screen 33 in the collection cavity 31, when the rainwater stops, the electric telescopic rod 26 moves upwards, and the side plate 29 is reset under the action of the vortex spring 30;

as shown in fig. 1 and fig. 3-6, the servo motor 16 is started, the rotation shaft 15 can be rotated by starting the servo motor 16, the rotation shaft 15 can be rotated to enable the sliding plate 1803 to slide on the inner side of the limiting plate 19 under the action of the movable disc 1801 and the connecting rod 1802, the photovoltaic panel 4 can be pushed by the movement of the sliding plate 1803 under the action of the connecting rod 1802 which is hinged to the connecting rod, so that the photovoltaic panel 4 rotates obliquely around the end part of the movable rod 3, the rotation period of the photovoltaic panel 4 is 24 hours by controlling the rotation speed of the servo motor 16, the photovoltaic panel 4 can rotate along the irradiation direction of sunlight, and the utilization rate of the photovoltaic panel 4 to light energy is further improved;

as shown in fig. 1 to 4, when the servo motor 16 drives the adjusting mechanism 18 to rotate the photovoltaic panel 4, the rotation of the rotating shaft 15 can rotate the driving rod 12 under the action of the driving bevel gear 14 and the linkage bevel gear 13, the rotation of the driving rod 12 can rotate the driven rod 9 under the action of the driving gear 11 and the circular gear 10, the driving rope 8 can be wound and lengthened through the forward and reverse rotation of the driven rod 9, the cleaning plate 6 can be pulled through the wound and lengthened driving rope 8 to slide the cleaning plate 6 on the side rod 5, the movement of the cleaning plate 6 can further sweep dust on the outer surface of the photovoltaic panel 4 to avoid a large amount of dust accumulation on the photovoltaic panel 4, and as shown in fig. 1 and 7, when the sliding plate 1803 moves downwards, the baffle 21 can be pulled through the pulling rope 20 to slide the baffle 21 leftwards on the lower end of the rain collecting box 23, when the baffle 21 moves to not block the leakage opening 32 at the lower end of the collection chamber 31, the rainwater in the collection chamber 31 flows downwards to the photovoltaic panel 4 through the leakage opening 32 under the action of gravity, and the cleaning effect of the photovoltaic panel 4 can be improved by the flowing rainwater, which is not described in detail in this specification, and is known to those skilled in the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides an energy-conserving building activity photovoltaic curtain wall structure of adjustable interval ventilation, includes mounting bracket (1), fixed column (2), photovoltaic board (4) and servo motor (16), its characterized in that: the photovoltaic solar, the upper end of the linkage bevel gear (13) is connected with a drive bevel gear (14) in a meshed manner, the middle of the drive bevel gear (14) is provided with a rotating shaft (15), the left end of the rotating shaft (15) is fixedly installed on a servo motor (16), the servo motor (16) is fixedly installed inside a protective box (17), the right end of the rotating shaft (15) is provided with an adjusting mechanism (18), the outer side of the adjusting mechanism (18) is provided with a limiting plate (19), the upper end of the limiting plate (19) is fixedly installed with a traction rope (20), the upper end of the traction rope (20) is installed on the left side of a baffle (21), the baffle (21) is installed at the lower end of a rain collecting box (23), the rain collecting box (23) and the baffle (21) are connected with each other through a compression spring (22), and the upper end of the rain collecting box (23) is provided with, and rain sensor (25) are installed to the lower extreme of response diaphragm (24), electric telescopic handle (26) are installed to the lower extreme of rain sensor (25), and the lower extreme fixed mounting of electric telescopic handle (26) is in the upper end middle part of extrusion piece (27), carriage release lever (28) are installed to the lower extreme avris of extrusion piece (27), and the outside end of carriage release lever (28) installs the inboard in curb plate (29), be connected with vortex spring (30) between curb plate (29) and the avris of collection rain case (23), and the collection chamber (31) has been seted up to the lower extreme inside of collection rain case (23), leak opening (32) have been seted up to the upper end avris of collection chamber (31), and the inside fixed mounting of collecting chamber (31) has filter screen (33) to through-hole (34) have been seted up on the lower extreme right side of collecting chamber (31).

2. The energy-saving building active photovoltaic curtain wall structure with adjustable interval ventilation as claimed in claim 1, wherein: the side rods (5) are symmetrically arranged about the vertical central axis of the photovoltaic panel (4), the outer walls of the side rods (5) and the inner wall of the side of the cleaning plate (6) are attached to each other, and a sliding connection structure is formed between the cleaning plate (6) and the side rods (5).

3. The energy-saving building active photovoltaic curtain wall structure with adjustable interval ventilation as claimed in claim 1, wherein: the lower end of the cleaning plate (6) and the upper end of the photovoltaic plate (4) are attached to each other, the cleaning plate (6) and the driven rod (9) are connected with each other through a driving rope (8), and the driven rod (9) is symmetrically arranged relative to the transverse central axis of the protective box (17).

4. The energy-saving building active photovoltaic curtain wall structure with adjustable interval ventilation as claimed in claim 1, wherein: the adjusting mechanism (18) is composed of a movable disc (1801), a connecting rod (1802), a sliding plate (1803) and a supporting rod (1804), the movable disc (1801) and the sliding plate (1803) are movably connected with the end portion of the connecting rod (1802), and the right end of the supporting rod (1804) is connected with the inner side of the photovoltaic panel (4) in a hinged mode.

5. The energy-saving building active photovoltaic curtain wall structure with adjustable interval ventilation as claimed in claim 4, wherein: the outer wall of the edge side of the sliding plate (1803) is attached to the inner wall of the limiting plate (19), and a sliding connection structure is formed between the sliding plate (1803) and the limiting plate (19).

6. The energy-saving building active photovoltaic curtain wall structure with adjustable interval ventilation as claimed in claim 1, wherein: the upper end of baffle (21) and the lower extreme of rain-collecting box (23) are laminated each other, and constitute sliding connection structure between the lower extreme of baffle (21) and rain-collecting box (23), and pass through haulage rope (20) interconnect between baffle (21) and sliding plate (1803).

7. The energy-saving building active photovoltaic curtain wall structure with adjustable interval ventilation as claimed in claim 1, wherein: the movable rod (28) is symmetrically arranged about the vertical central axis of the extrusion block (27), the inner end of the movable rod (28) and the abutting surface of the side of the extrusion block (27) are arranged to be of a bevel edge structure, and a sliding connection structure is formed between the movable rod (28) and the upper end of the collection cavity (31).

8. The energy-saving building active photovoltaic curtain wall structure with adjustable interval ventilation as claimed in claim 1, wherein: the side plates (29) are symmetrically arranged about a vertical central axis of the rain collecting box (23), a rotating structure is formed between the lower ends of the side plates (29) and the sides of the rain collecting box (23), and the inner sides of the side plates (29) are connected with the outer ends of the movable rods (28) in a hinged mode.