CN221425016U - Energy-saving ventilation device for green building - Google Patents

Abstract

The application relates to an energy-saving ventilation device for a green building, which comprises a building body, a fixing assembly, a windmill, a transmission assembly, an air inlet fan and an exhaust fan, wherein the fixing assembly piece is arranged at the top of the building body in a penetrating way, the windmill is arranged at one end, far away from the ground, of the fixing assembly piece, the air inlet fan is arranged on a wall, perpendicular to the ground, of the building body, the exhaust fan is arranged on the wall, far away from the air inlet fan, of the building body, the fixing assembly is used for fixing the transmission assembly, the windmill is connected with the exhaust fan through the transmission assembly, the windmill is connected with the air inlet fan through the transmission assembly, and the windmill transmits power to the air inlet fan and the exhaust fan through the transmission assembly. The application has the effect of ventilating the building body by using wind power.

Description

Energy-saving ventilation device for green building

Technical Field

The application relates to the field of building ventilation devices, in particular to an energy-saving ventilation device for a green building.

Background

The green building is an environment-friendly building which is harmonious with nature, and the green building pays attention to low consumption, high efficiency, economy and environment protection, and is a sustainable development construction means.

With the development of low-carbon life, green buildings are continuously popularized, the ventilating devices of the green buildings generally use clean energy, and usually, the ventilating devices are only provided with exhaust fans on one side, so that the ventilating effect is not ideal, and the ventilating devices are required to be further improved.

Disclosure of utility model

In order to enable the ventilation effect of the green building to be better, the application provides an energy-saving ventilation device of the green building.

The application provides an energy-saving ventilation device for a green building, which adopts the following technical scheme:

The utility model provides an energy-conserving ventilation unit of green building, includes building body, fixed subassembly, windmill, drive assembly, air inlet fan, exhaust fan, the fixed subassembly piece run through set up in the top of building body, the windmill set up in the fixed subassembly piece is kept away from ground one end, air inlet fan set up in on the wall of building body perpendicular to ground, exhaust fan set up in the building body is kept away from on the wall of air inlet fan one side, the fixed subassembly piece is used for fixing drive assembly, the windmill with exhaust fan passes through drive assembly connects, the windmill with air inlet fan passes through drive assembly connects, the windmill passes through drive assembly with power conduction extremely air inlet fan with exhaust fan.

Through adopting above-mentioned technical scheme, the building body drives air inlet fan through the windmill with wind-force conversion into mechanical force and admits air to the inside of building body, and the windmill drives exhaust fan with wind-force conversion into mechanical force and airs exhaust to the inside of building body, and exhaust fan and air inlet fan set up on the wall of the relative both sides of building body to make the inside convection current that easily forms of building body, thereby make the inside good ventilation effect that reaches of building body.

Optionally, the drive assembly includes first transmission shaft, second transmission shaft, first bevel gear, second bevel gear, third bevel gear, fourth bevel gear, first transmission shaft sets up in fixed subassembly is inside along perpendicular to ground direction, first bevel gear sets up in the pivot of windmill, the second bevel gear sets up in first transmission shaft is close to first bevel gear's one end, first bevel gear with second bevel gear vertical engagement, the third bevel gear sets up first transmission shaft is kept away from second bevel gear's one end, exhaust fan with exhaust fan is located same height, second transmission shaft one end with exhaust fan's pivot is connected, second transmission shaft is kept away from exhaust fan's one end with exhaust fan's pivot is connected, the second transmission shaft can drive the exhaust fan with exhaust fan is with the same frequency rotates, fourth bevel gear sets up on the second transmission shaft, third bevel gear with second bevel gear vertical engagement.

Through adopting above-mentioned technical scheme, a windmill can drive inlet fan and exhaust fan simultaneously, and inlet fan is unanimous with exhaust fan's rotation frequency to the internal air input of building is unanimous with the displacement, and the internal gas of building reaches dynamic balance, thereby promotes the internal ventilation effect of building.

Optionally, the fixed subassembly is fixed pipe, fixed pipe is hollow closed tube, first transmission shaft is followed fixed pipe's length direction rotates to set up in the fixed pipe, first transmission shaft both ends wear out fixed pipe.

Through adopting above-mentioned technical scheme, fixed pipe is fixed with first transmission shaft, and first transmission shaft can rotate in fixed pipe, and fixed pipe only need set up the round hole at the top and just can install, and the installation is simple.

Optionally, a solar panel is arranged at the top of the building body.

Through adopting above-mentioned technical scheme, green building can adopt the clean energy of solar energy to supply power indoor, reduces direct external power supply, has further promoted the feature of environmental protection of building.

Optionally, the building body is in the air inlet fan exhaust fan department all is provided with the flashing board that is used for hiding the rain, the flashing board be close to the one end at building body top with the building body is connected.

By adopting the technical scheme, the rain-shielding plate can prevent rainwater from entering the building body from the exhaust fan and the air inlet fan as much as possible in rainy days.

Optionally, the building body is close to be provided with the motor on the inner wall of flashing department, be connected with the connecting rod in the pivot of motor, the flashing is close to building body one side is provided with the slide rail along length direction, the connecting rod is kept away from motor one end slides and sets up in the slide rail, the motor can drive the connecting rod rotates in order to control the opening and shutting of flashing, this inner arm of building is provided with the controller that is used for controlling motor work.

Through adopting above-mentioned technical scheme, according to the difference of weather, the controller can control the motor, and the motor can control the connecting rod to control the opening and shutting of flashing board.

Optionally, a raindrop sensor is disposed at the top of the building body, and the raindrop sensor is capable of sending a signal to the controller.

Through adopting above-mentioned technical scheme, can automated inspection rainfall size through the raindrop inductor, raindrop inductor send signal to the controller can be according to the signal control motor that the raindrop inductor sent, thereby the degree of opening and shutting of control flashing can prevent in the rainwater gets into the building body when guaranteeing to ventilate.

Optionally, the building body is provided with a filter screen on the inner wall of the air inlet fan and the air outlet fan.

By adopting the technical scheme, most of dust and inhalable particles in the air can be filtered through the filter screen, so that the human health is protected.

In summary, the present application includes at least one of the following beneficial technical effects:

1. The wind power is converted into mechanical force by the windmill to drive the air inlet fan to air the interior of the building body, the wind power is converted into mechanical force by the windmill to drive the air outlet fan to exhaust air the interior of the building body, and the air outlet fan and the air inlet fan are arranged on the walls on two opposite sides of the building body, so that convection is easy to form in the interior of the building body, and a good ventilation effect is achieved in the interior of the building body;

2. The windmill can drive the air inlet fan and the exhaust fan simultaneously, and the rotation frequency of the air inlet fan is consistent with that of the exhaust fan, so that the air inflow in the building body is consistent with the air exhaust amount, and the air in the building body is dynamically balanced, so that the ventilation effect in the building body is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an energy-saving ventilation device for a green building according to an embodiment of the present application;

FIG. 2 is a schematic view of another angle of the overall structure of an energy-saving ventilating device for a green building according to an embodiment of the present application;

FIG. 3 is a cross-sectional view of an energy-efficient ventilation device for a green building according to an embodiment of the present application;

fig. 4 is a schematic structural view of a flashing of an energy-saving ventilating device for a green building according to an embodiment of the present application.

Reference numerals illustrate:

1. A building body; 2. a fixing assembly; 21. a fixed tube; 3. a windmill; 4. a transmission assembly; 41. a first drive shaft; 42. a second drive shaft; 43. a first bevel gear; 44. a second bevel gear; 45. a third bevel gear; 5. an air intake fan; 6. an exhaust fan; 7. a flashing; 71. a slide rail; 8. a motor; 9. a connecting rod; 10. a raindrop sensor; 11. a controller; 12. a filter screen; 13. a solar panel.

Detailed Description

The present application will be described in further detail below.

The embodiment of the application discloses an energy-saving ventilation device for a green building, which comprises a building body 1, a fixing component 2, a windmill 3, an air inlet fan 5 and an exhaust fan 6, wherein the fixing component 2 is a fixing pipe 21, the fixing pipe 21 is a hollow closed pipe, the windmill 3 is fixed on the fixing pipe 21, a solar panel 13 for supplying power to the building is paved on the top of the building body 1, a raindrop sensor 10 for monitoring the rain amount is also arranged on the top of the building body 1, the air inlet fan 5 and the exhaust fan 6 are respectively arranged on the walls on two opposite sides of the building body 1, and a rain shielding plate 7 is arranged on the positions of the air inlet fan 5 and the exhaust fan 6 of the building body 1.

Referring to fig. 3 and 4, one end of the flashing 7, which is close to the top of the building, is hinged to the building body 1, a slide rail 71 is mounted on one side of the flashing 7, which is close to the building body 1, along the length direction of the flashing 7, a connecting rod 9 is slidably arranged in the slide rail 71, a motor 8 is mounted on the inner wall of the building body 1, which is close to the flashing 7, one end of the connecting rod 9, which is far away from the flashing 7, is sleeved on a rotating shaft of the motor 8, the rotating shaft of the motor 8 can drive the connecting rod 9 to move, so that the motor 8 can control the opening and closing of the flashing 7, a filter screen 12 is mounted on the inner wall of the building body 1 at the positions of the air inlet fan 5 and the air outlet fan 6, and the filter screen 12 can filter dust in air and inhalable particles, so as to protect the human health.

Referring to fig. 3, a controller 11 is installed on the inner wall of the building body 1, the raindrop sensor 10 can send a monitoring signal to the controller 11, and the controller 11 sends a signal to control the motor 8, so as to control the opening and closing of the flashing 7, and the controller 11 can control the opening and closing of the flashing 7 according to different weather, so that rainwater can be prevented from entering the building body 1 as much as possible while ventilation is ensured.

Referring to fig. 3, an energy saving device for a green building further includes a transmission assembly 4, the transmission assembly 4 is fixed in the fixed assembly 2, the transmission assembly 4 includes a first transmission shaft 41, a second transmission shaft 42, a first bevel gear 43, a second bevel gear, a third bevel gear 45, and a fourth bevel gear 46, the first transmission shaft 41 rotates along the length direction of the fixed pipe 21 and is disposed in the fixed pipe 21, both ends of the first transmission shaft 41 penetrate out of the fixed pipe 21, the first bevel gear 43 is sleeved on the rotating shaft of the windmill 3, the second bevel gear is sleeved at one end of the first transmission shaft 41 close to the windmill 3, the first bevel gear 43 is vertically meshed with the second bevel gear, the third bevel gear 45 is sleeved at one end of the first transmission shaft 41 far away from the second bevel gear, the rotating shaft of the second transmission shaft 42 is connected with the rotating shaft of the exhaust fan 6, the fourth bevel gear 46 is sleeved on the second transmission shaft 42, the fourth bevel gear 46 is vertically meshed with the third bevel gear 45, the second transmission shaft 42 rotates to drive the exhaust fan 5 to rotate at the same frequency as the exhaust fan 6, the fan 5 rotates at the same frequency as the exhaust fan 6, the intake fan 5 rotates at the same frequency as the exhaust fan 6 is easy to rotate at the same frequency as the exhaust fan 6, the same frequency as the exhaust fan 1 can be mounted in the building body 1, and the air exchange body is further balanced in the building body 1, and the air exchange body is mounted in the building body 1, and the air exchange body is further balanced in the building body 1.

The embodiment of the application relates to a ventilation energy receiving device for a green building, which comprises the following implementation principles: the windmill 3 converts wind energy into mechanical energy, because the first bevel gear 43 is vertically meshed with the second bevel gear, the windmill 3 rotates to drive the first transmission shaft 41 to rotate, the first transmission shaft 41 drives the third bevel gear 45 to rotate, the third bevel gear 45 is vertically meshed with the fourth bevel gear 46, the third bevel gear 45 drives the fourth bevel gear 46, thereby driving the second transmission shaft 42, the second transmission shaft 42 connects the rotating shafts of the exhaust fan 6 and the intake fan 5 together, the second rotating shaft rotates to drive the intake fan 5 and the exhaust fan 6 to rotate at the same frequency, and the air in the building body 1 is dynamically balanced, so that ventilation in the building body 1 is realized.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (8)

1. The utility model provides an energy-conserving ventilation unit of green building, its characterized in that, including building body (1), fixed subassembly (2), windmill (3), drive assembly (4), air inlet fan (5), exhaust fan (6), fixed subassembly (2) piece run through set up in the top of building body (1), windmill (3) set up in fixed subassembly (2) piece keep away from ground one end, air inlet fan (5) set up in on the wall of one side of building body (1) perpendicular to ground, exhaust fan (6) set up in building body (1) keep away from on the wall of air inlet fan (5) one side, fixed subassembly (2) are used for fixing drive assembly (4), windmill (3) with exhaust fan (6) pass through drive assembly (4) are connected, windmill (3) with air inlet fan (5) pass through drive assembly (4) are connected, windmill (3) are with power conduction extremely air inlet fan (5) with exhaust fan (6).

2. The energy-saving ventilation device for a green building according to claim 1, wherein the transmission assembly (4) comprises a first transmission shaft (41), a second transmission shaft (42), a first bevel gear (43), a second bevel gear, a third bevel gear (45) and a fourth bevel gear (46), the first transmission shaft (41) is arranged inside the fixed assembly (2) along the direction perpendicular to the ground, the first bevel gear (43) is arranged on the rotating shaft of the windmill (3), the second bevel gear is arranged on one end of the first transmission shaft (41) close to the first bevel gear (43), the first bevel gear (43) is vertically meshed with the second bevel gear, the third bevel gear (45) is arranged on one end of the first transmission shaft (41) far away from the second bevel gear, the exhaust fan (6) and the air intake fan (5) are positioned at the same height, one end of the second transmission shaft (42) is connected with the rotating shaft of the exhaust fan (6), the second transmission shaft (42) far away from the air intake fan (6) is arranged on the other end of the second transmission shaft (42) which can rotate, the third bevel gear (45) is vertically meshed with the second bevel gear.

3. The energy-saving ventilation device for a green building according to claim 2, wherein the fixing component (2) is a fixing tube (21), the fixing tube (21) is a hollow closed tube, the first transmission shaft (41) rotates along the length direction of the fixing tube (21) and is arranged in the fixing tube (21), and two ends of the first transmission shaft (41) penetrate out of the fixing tube (21).

4. A green building energy saving ventilation device according to claim 3, characterized in that the top of the building body (1) is provided with a solar panel (13).

5. Energy-saving ventilation device for green buildings according to claim 4, characterized in that the building body (1) is provided with a flashing (7) for flashing at the inlet fan (5) and the outlet fan (6), and the end of the flashing (7) close to the top of the building body (1) is connected with the building body (1).

6. The energy-saving ventilation device for a green building according to claim 5, wherein a motor (8) is arranged on the inner wall of the building body (1) close to the position of the flashing (7), a connecting rod (9) is connected to a rotating shaft of the motor (8), a sliding rail (71) is arranged on one side of the flashing (7) close to the building body (1) along the length direction, one end of the connecting rod (9) away from the motor (8) is slidably arranged in the sliding rail (71), the motor (8) can drive the connecting rod (9) to rotate so as to control the opening and closing of the flashing (7), and a controller (11) for controlling the motor (8) to work is arranged on an inner arm of the building body (1).

7. Energy-saving ventilation device for green buildings according to claim 6, characterized in that the roof of the building body (1) is provided with a raindrop sensor (10), which raindrop sensor (10) is able to send a signal to the controller (11).

8. Energy-saving ventilation device for green buildings according to claim 1, characterized in that the building body (1) is provided with a filter screen (12) on the inner wall at the inlet fan (5) and the exhaust fan (6).