CN114484680B

CN114484680B - Green building ventilation energy-saving equipment

Info

Publication number: CN114484680B
Application number: CN202210125091.6A
Authority: CN
Inventors: 胡加珍
Original assignee: Shenzhen Yiqiao Decoration Design Engineering Co ltd
Current assignee: Shenzhen Yiqiao Decoration Design Engineering Co ltd
Priority date: 2022-02-10
Filing date: 2022-02-10
Publication date: 2023-09-22
Anticipated expiration: 2042-02-10
Also published as: CN114484680A

Abstract

The invention provides a green building ventilation energy-saving device, which relates to the technical field of green building ventilation devices and solves the problem of unreasonable protective structure, and comprises a ventilation fan and a fixing frame arranged on the air inlet side of the ventilation fan, wherein two air supply pipes with opposite bending directions are arranged on the air outlet side of the ventilation fan, a hinged support corresponding to the upper part of the air inlet side of the ventilation fan is arranged on the fixing frame, a rotating shaft penetrates through the middle part of an inner frame, a photovoltaic power generation plate capable of performing one hundred eighty degree overturning action is movably connected on the inner frame of the rotating frame through the rotating shaft, the rotating frame can be rotated to cover and protect the air inlet side of the device by the photovoltaic plate under the electrifying operation of a motor, and the photovoltaic plate is automatically overturned by a gear meshing mode, so that the air inlet side of the device is covered after the photovoltaic absorption surface of the photovoltaic power generation plate is overturned to the inner side, and the air inlet side of the device can be completely protected.

Description

Green building ventilation energy-saving equipment

Technical Field

The invention relates to the technical field of green building ventilation equipment, in particular to green building ventilation energy-saving equipment.

Background

The green building is a building which represents a concept or symbol, is harmless to the environment, can fully utilize natural resources of the environment, is constructed under the condition of not damaging the basic ecological balance of the environment, and can be also called as sustainable development building, ecological building, natural building returning, energy-saving environment-friendly building and the like. The traditional building ventilation device has poor energy-saving effect, is difficult to ventilate and save energy in high standard, and when the device is used for ventilation, if the fan blades are not continuously protected, excessive dust outside often causes difficult rotation of the fan blades, so the invention provides the environment-friendly building ventilation energy-saving equipment.

Aiming at the problems, the Chinese patent with the application number CN202120428967.5 discloses a green building ventilation energy-saving device, which structurally comprises an operation box, wherein one side of the operation box is fixedly connected with a connecting plate, a round hole is formed in the middle of the connecting plate, a fixing frame is fixedly connected with the inside of the operation box, a motor is arranged in the fixing frame, a transmission rod is movably connected with the output end of the motor, and a section of fan blade is movably connected with the transmission rod.

This green building energy-saving equipment that ventilates, although can protect solar cell panel through the weather shield, its weather shield still leaves the clearance with between the panel when sheltering from the rainwater, when storm weather, still has the rainwater to pass the clearance and hit on the panel, so its protection effect is relatively poor, structural design is unreasonable.

Disclosure of Invention

The invention provides the ventilation energy-saving equipment for the green building, which can protect the photovoltaic panel temporarily in rainy days and can also protect the ventilation equipment.

According to the technical scheme, the environment-friendly building ventilation energy-saving equipment comprises a ventilator and a fixing frame arranged on the air inlet side direction of the ventilator, wherein two air supply pipes with opposite bending directions are arranged on the air outlet side direction of the ventilator, a hinged support corresponding to the upper air inlet side direction of the ventilator is arranged on the fixing frame, a rotating frame which is rotated to incline upwards is arranged on the hinged support, an inner frame is arranged on the rotating frame, a rotating shaft penetrates through the middle part of the inner frame, a photovoltaic power generation plate which can perform one hundred eighty degree overturning action is movably connected on the inner frame of the rotating frame through the rotating shaft, the photovoltaic power generation plate covers the upper side of the rotating frame and covers the air inlet side of the ventilator after rotating downwards along with the rotating frame, when the rotating frame rotates to incline upwards, a photovoltaic absorption surface of the photovoltaic power generation plate faces upwards along with the rotating frame, one side of the rotating frame is provided with a micro motor which is connected to the support and drives the rotating downwards through the hinged support, the other side of the rotating frame is provided with a rotating shaft through a bearing, a driving pulley is arranged on the inner side of the rotating frame through the rotating frame, a driven pulley is meshed with a driven pulley which is meshed with a driving pulley when the rotating pulley which is arranged in the rotating frame rotates downwards, and the rotating pulley is meshed with the rotating pulley.

As a further preferable aspect, the profile dimension of the gear segment is smaller than the width dimension of the side wall surface of the fixing frame.

As a further preferable mode, the gear lack comprises a connecting rod welded on the inner ring surface of the gear lack and a gear lack part meshed with the driven gear, an extension rod is arranged on the side surface of the fixing frame, and the connecting rod on the gear lack is fixed on the extension rod through a locking bolt.

As a further preferable mode, the fixing frame is a frame structure which is fixedly arranged on the outer wall surface of the ventilator in a surrounding mode, and a step is formed between the fixing frame and the outer wall surface of the ventilator.

As a further preferable mode, the end face of the fixing frame facing the air supply pipe is provided with a sinking groove, two branch pipes are filled in the sinking groove, one ends of the two branch pipes penetrate through the two air supply pipes respectively, the other ends of the two branch pipes extend into the sinking groove and are connected with a gas collecting hood positioned above the fixing frame after penetrating upwards continuously.

As a further preferable mode, a synchronizing shaft vertically penetrates through the top end of the gas collecting hood to the inner cavity of the gas collecting hood, an impeller is arranged at the bottom end of the synchronizing shaft, two branch pipes are located in the gas collecting hood, the air nozzles are correspondingly located on two sides of the impeller, and blades are further arranged at the top end of the synchronizing shaft.

As a further preference, the gas nozzles of the two branch pipes in the gas collecting hood blow corresponding to the rotational orientation of the impeller.

As a further preferable mode, the top of the fixing frame is provided with an extension rod extending upwards, the top end of the extension rod is provided with a rain sensor close to the blade, the top of the fixing frame is provided with an electric box, and the electric box comprises a controller which is electrically connected with the rain sensor and used for controlling the micro motor to work in a electrifying mode.

Compared with the prior art, the invention has the beneficial effects that the fixed frame arranged on the ventilator (1) is convenient for installing the ventilator into a building wall, at least two air supply pipes are arranged, the ventilation of the wall body is convenient in a multi-channel mode, the ventilation of air is quickened, the rotating frame provided with the photovoltaic plate is arranged on the fixed frame in a motor driving mode, the rotating frame can be rotated to cover and protect the air inlet side of the equipment by utilizing the photovoltaic plate in rainy days when the motor is electrified, and the photovoltaic plate can be automatically turned over by means of gear engagement, so that the air inlet side of the equipment is covered after the photovoltaic absorption surface is turned to the inner side, and the photovoltaic plate can be completely protected by itself at the same time when the air inlet side of the equipment is completely protected.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the present invention from the perspective of rotation of FIG. 1;

FIG. 3 is a schematic illustration of a side view of the present invention from FIG. 1;

FIG. 4 is an enlarged view of the structure of the portion A of FIG. 3 according to the present invention;

FIG. 5 is a schematic view of a partial structure in a top view of the present invention;

FIG. 6 is a schematic view of the relationship and structure of the photovoltaic panel of the present invention after it is removed from the turret;

FIG. 7 is an enlarged view of the structure of the portion B of the present invention;

FIG. 8 is a schematic view of the internal structure of the gas-collecting hood of the present invention in section;

FIG. 9 is a schematic view of the installation location of a controller included in the electrical box of the present invention;

fig. 10 is a schematic diagram of the operation of the turret with the photovoltaic panel rotated downward and covered on the air inlet of the ventilator, and the photovoltaic surface of the photovoltaic panel is also rotated inward and blocked.

In the figure: 1. a ventilator; 2. a fixing frame; 3. an air supply pipe; 4. a hinged support; 5. a rotating frame; 6. an inner frame; 7. a rotating shaft; 8. a photovoltaic power generation panel; 9. a micro motor; 10. a pulley shaft; 11. a driving pulley; 12. a driven gear; 13. a gear-missing; 14. a driven pulley; 15. a conveyor belt; 16. a connecting rod; 17. tooth-missing parts; 18. an extension rod; 19. a step; 20. sinking grooves; 21. a branch pipe; 22. A gas collecting hood; 23. a synchronizing shaft; 24. an impeller; 25. a blade; 26. an extension rod; 29. a rain sensor; 27. an electrical box; 28. and a controller.

Detailed Description

The following description of the embodiments of the present invention, taken in conjunction with the accompanying drawings, will be clearly and fully described in terms of the drawings, wherein the embodiments described are some, but not all, of the embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present invention without making any inventive effort, are intended to fall within the scope of the present invention.

As shown in fig. 1 to 10.

The green building ventilation energy-saving equipment provided by the embodiment comprises a ventilator 1 and a fixing frame 2 arranged on the air inlet side of the ventilator 1, wherein two air supply pipes 3 with opposite bending directions are arranged on the air outlet side of the ventilator 1, a hinged support 4 corresponding to the upper air inlet side of the ventilator is arranged on the fixing frame 2, a rotary upward rotating support 5 is arranged on the hinged support 4, an inner frame 6 is arranged on the rotary support 5, a rotary shaft 7 penetrates through the middle part of the inner frame 6, a photovoltaic power generation plate 8 capable of performing one hundred and eighty degree overturning action is movably connected on the inner frame 6 of the rotary support 5 through the rotary shaft 7, the photovoltaic power generation plate 8 covers the upper air inlet side of the rotary support 5 and covers the ventilator 1 after rotating downwards along with the rotary support 5, when the rotary support 5 rotates to incline downwards, the photovoltaic power absorption surface of the photovoltaic power generation plate 8 faces upwards along with the rotary support 5, one side of the rotary support 5 is provided with a transmission belt pulley 12 which is connected with the hinged support 4 and drives the rotary support 5 downwards along with the rotary support 5 through the hinged support 4, a driving pulley 12 is arranged on one side of the rotary support 5, a driving pulley 12 is meshed with the other side of the rotary support 10, a driven pulley 12 is meshed with the driving pulley 12 is arranged on the other side of the rotary support 5, the driving pulley 12 is meshed with the driving pulley 12 through the rotary pulley 12, the driving pulley 12 is meshed with the driving pulley 12, the driving pulley 12 is meshed with the driving pulley 12 is arranged on the other side 13, a conveyor belt 15 which can drive the photovoltaic power generation panel 8 to perform one hundred eighty degrees of overturning action in the inner frame 6 through the rotating shaft 7 when the driving pulley 11 synchronously rotates along with the driven gear 12 is connected between the driven pulley 14 and the driving pulley 11.

In the invention, the photovoltaic power generation plate 8 which is inclined upwards along with the rotating frame 5 can receive solar energy and supply power to the ventilating fan 1 after being converted by the prior conversion technology, two air supply pipes 3 on the ventilating fan 1 are used for introducing environment-friendly air into a wall in a multi-channel mode, or enabling the environment-friendly air to pass through the wall surface to enter a room in a multi-channel mode, because the rotating frame 5 with the photovoltaic power generation plate 8 is arranged on the ventilating fan 1 through the hinged support 4, the ventilating fan 1 is driven by the micro motor 9 to rotate downwards to cover the air inlet side of the ventilating fan 1 when in rainy days, compared with the prior art, as shown in figure 10, the covering mode is better in covering effect, the protection structure is more reasonable, and compared with the prior art, the photovoltaic power generation plate 8 is also arranged on the rotating frame 5 through the rotating shaft 7, and a transmission mechanism such as a gear is also arranged, so that the rotating frame 5 rotates downwards, the driving pulley 11 on the rotating frame rotates along with the rotating frame, the driven gear 12 on the inner side of the driving pulley 11 is meshed with the tooth-lacking part 17 of the tooth-lacking part 13, the connecting rod 16 on the tooth-lacking part 13 is fixed on the extension rod 18 through a locking bolt, the tooth-lacking part 13 is fixed, the driving pulley 11 rotates downwards along with the rotating frame 5 and rotates due to meshing with the tooth-lacking part 17 on the tooth-lacking part 13, the generated autorotation effect transmits power to the driven pulley 14 through the transmission belt 15 to force the driven pulley 14 to rotate along with the rotating shaft 7, the photovoltaic power generation plate 8 rotates synchronously due to the fact that the photovoltaic power generation plate 8 is rotationally connected in the rotating frame 5 through the rotating shaft 7, finally, when the downward rotating frame 5 covers the air inlet side of the ventilator 1 by using the photovoltaic power generation plate 8, the photovoltaic power generation surface of the photovoltaic power generation plate 8 is automatically covered in an inward facing manner in the air inlet side direction of the ventilator 1, so that rainwater cannot influence the air inlet side of the ventilator 1 and the photovoltaic power generation surface of the photovoltaic power generation plate 8, and compared with the prior art, the protective structure design of the photovoltaic power generation plate is more reasonable.

Preferably, the outline size of the gear-lack 13 is smaller than the width size of the side wall surface of the fixed frame 2, the fixed frame 2 is a frame structure which is fixedly arranged around the outer wall surface of the ventilator 1, a step 19 is formed between the fixed frame 2 and the outer wall surface of the ventilator 1, the step 19 is reserved for the device to be installed in a fixed wall, the outline size of the gear-lack 13 is smaller than the width size of the side wall surface of the fixed frame 2, and the gear-lack 13 can be prevented from colliding with the wall surface when the device is installed on the building wall.

In another embodiment, a sink 20 is formed on the end surface of the fixing frame 2 facing the air supply pipe 3, two branch pipes 21 are filled in the sink 20, one ends of the two branch pipes 21 penetrate through the two air supply pipes 3 respectively, the other ends of the two branch pipes 21 extend into the sink 20 and are continuously connected with a gas collecting cover 22 positioned above the fixing frame 2 after penetrating upwards, a synchronizing shaft 23 vertically penetrates through the inner cavity of the gas collecting cover 22 from the top end of the gas collecting cover 22, an impeller 24 is arranged at the bottom end of the synchronizing shaft 23, gas spraying ports of the two branch pipes 21 positioned in the gas collecting cover 22 are correspondingly positioned at two sides of the impeller 24, blades 25 are further arranged at the top end of the synchronizing shaft 23, and the gas spraying ports of the two branch pipes 21 positioned in the gas collecting cover 22 are correspondingly blown in the rotation direction of the impeller 24.

In this embodiment, it can be seen that the two branch pipes 21 can intercept the gas passing through the gas supply pipe 3 to form a part, and return the intercepted part of the gas to the gas collecting cover 22 through the branch pipes 21, because the gas collecting cover 22 is closed, the gas collecting cover 22 has gas pressure, and because the gas nozzles of the two branch pipes 21 in the gas collecting cover 22 are corresponding to the rotation direction of the impeller 24 to blow, the impeller 24 is forced to rotate with the synchronizing shaft 23 by the gas, and drives the blades 25 on the synchronizing shaft 23 to synchronously rotate, meanwhile, because the top of the fixing frame 2 is provided with the extending rod 26 extending upwards, the top end of the extending rod 26 is provided with the rain sensor 29 adjacent to the blades 25, so that in the rainy day, the rotation of the blades 25 can also hit the received rain on the rain sensor 29 in a splashing manner, so that the rain is sensed in the first time to the greatest extent, and the sensing signal is fed back to the controller 28 in the electrical box 27, the controller 28 sends an instruction to the micro motor 9, so that the micro motor 9 drives the rotating frame 5 to rotate in a manner that the micro motor 9 automatically drives the rotating frame 1 to rotate in a manner that the air inlet box 27 is not covered by the other current sensing means, and the air inlet box is used in a protection mode, at least including a reverse sensing mode.

The above embodiments are provided to further explain the objects, technical solutions, and advantageous effects of the present invention in detail. It should be understood that the foregoing is only illustrative of the present invention and is not intended to limit the scope of the present invention. It should be noted that any modifications, equivalent substitutions, improvements, etc. made by those skilled in the art without departing from the spirit and principles of the present invention are intended to be included in the scope of the present invention.

Claims

1. The utility model provides a green building energy-saving equipment that ventilates, includes scavenger fan (1) and sets up mount (2) on scavenger fan (1) inlet side position, its characterized in that: the exhaust side direction of the ventilator (1) is provided with two air supply pipes (3) with opposite bending directions, the fixed frame (2) is provided with a hinged support (4) corresponding to the upper side of the air inlet side of the ventilator, the hinged support (4) is provided with a rotary upward rotating frame (5), an inner frame (6) is arranged on the rotating frame (5), the middle part of the inner frame (6) is penetrated with a rotating shaft (7), one side of the rotating frame (5) is movably connected with a photovoltaic power generation plate (8) capable of carrying out one hundred eighty degrees of overturning actions through the rotating shaft (7), the photovoltaic power generation plate (8) covers the upper side of the rotating frame (5) and covers the air inlet side of the ventilator (1) after the rotating frame (5) rotates downwards, when the rotating frame (5) rotates to incline upwards, the photovoltaic absorption surface of the photovoltaic power generation plate (8) faces upwards after the rotating downwards, one side of the rotating frame (5) is provided with a transmission plate (8) which faces downwards after the rotating downwards, one side of the rotating frame (5) is provided with a driving pulley (11) which is connected with the driving pulley (4) and drives the driving pulley (10) of the rotating frame (5) through the driving pulley (10), the driving pulley (11) is arranged on the other side of the driving pulley (10), the side of mount (2) is fixed with lacks gear (13) with driven gear (12) meshing for through lacking gear (13) meshing driven gear (12) synchronous revolution when revolving rack (5) down, the middle part of revolving rack (5) is equipped with driven pulley (14) that the transmission is connected in pivot (7), be connected with between driven pulley (14) and driving pulley (11) and can make driving pulley (11) follow-up gear (12) synchronous revolution time again drive photovoltaic power generation board (8) carry out conveyer belt (15) of hundred eighty degrees upset actions in interior frame (6) through pivot (7).

2. The green building ventilation energy saving device according to claim 1, wherein the profile size of the gear-missing (13) is smaller than the width size of the side wall surface of the fixing frame (2).

3. The green building ventilation energy-saving device according to claim 1, wherein the gear-lack (13) comprises a connecting rod (16) welded on the inner ring surface of the gear-lack (17) meshed with the driven gear (12), an extension rod (18) is arranged on the side surface of the fixed frame (2), and the connecting rod (16) on the gear-lack (13) is fixed on the extension rod (18) through a locking bolt.

4. The ventilation and energy-saving device for green buildings according to claim 2, wherein the fixing frame (2) is a frame structure fixedly surrounding the outer wall surface of the ventilator (1), and a step (19) is formed between the fixing frame (2) and the outer wall surface of the ventilator (1).

5. The energy-saving ventilation device for green buildings according to claim 4, wherein the end face of the fixing frame (2) facing the air supply pipe (3) is provided with a sink groove (20), two branch pipes (21) are filled in the sink groove (20), one ends of the two branch pipes (21) respectively penetrate through the two air supply pipes (3), and the other ends of the two branch pipes (21) extend into the sink groove (20) and are continuously connected with a gas collecting cover (22) positioned above the fixing frame (2) after upwards penetrating.

6. The energy-saving ventilation device for green buildings according to claim 5, wherein a synchronizing shaft (23) vertically penetrates from the top end of the gas collecting hood (22) to the inner cavity of the gas collecting hood, an impeller (24) is arranged at the bottom end of the synchronizing shaft (23), gas nozzles of the two branch pipes (21) positioned in the gas collecting hood (22) are correspondingly arranged at two sides of the impeller (24), and blades (25) are further arranged at the top end of the synchronizing shaft (23).

7. The green building ventilation energy saving device according to claim 6, characterized in that the air nozzles of the two branch pipes (21) located in the gas collecting hood (22) blow air in the direction corresponding to the impeller (24).

8. The green building ventilation energy-saving device according to claim 6, wherein the top of the fixing frame (2) is provided with an extension rod (26) extending upwards, the top end of the extension rod (26) is provided with a rain sensor (29) adjacent to the blade (25), the top of the fixing frame (2) is provided with an electrical box (27), and the electrical box (27) comprises a controller (28) electrically connected to the rain sensor (29) and used for controlling the micro motor (9) to be electrified.