CN219083307U - Intelligent ventilating energy-saving system for green building - Google Patents

Abstract

The application relates to the technical field of green buildings and discloses an intelligent ventilation energy-saving system for green buildings, which comprises a building body, wherein wind scoopers are rotatably arranged on two opposite side surfaces of the building body, the wind scoopers are communicated with an air inlet assembly fixed on the building body, and the intelligent ventilation energy-saving system further comprises a driving assembly for driving the wind scoopers to rotate and a control assembly for controlling the driving assembly to act. The beneficial effects of this application are: after the control assembly senses the wind direction, the driving assembly is controlled to act to drive the wind scooper to rotate to a position meeting the wind direction, and more wind can enter the building body under the action of the wind scooper, so that a better ventilation effect is achieved.

Description

Intelligent ventilating energy-saving system for green building

Technical Field

The application relates to the technical field of green buildings, in particular to an intelligent ventilating energy-saving system for green buildings.

Background

The utility model discloses a ventilation energy-saving device for a green building, which comprises a first ventilation pipe fixedly arranged in the middle of the right end of the green building, a second ventilation pipe fixedly arranged in the middle of the left end of the green building, the first ventilation pipe and the second ventilation pipe extending to the inside of the green building, an air supply port fixedly arranged at the lower end of the green building, a supporting plate fixedly arranged at the upper end of the green building, a supporting rod fixedly arranged in the middle of the upper end of the supporting plate, a first rotary shaft movably arranged at the right end of the supporting rod, a first rotary shaft extending to the middle of the inside of the supporting rod, and a rotator fixedly arranged at the right end of the first rotary shaft.

With respect to the related art in the above, the inventors consider that there are the following drawbacks: the wind direction can not be sensed, so that the air quantity entering the building body is limited, and the ventilation effect is poor

Disclosure of Invention

In order to improve the ventilation effect of building body, this application provides an intelligent green building's ventilation economizer system.

The application provides an intelligent green building's ventilation economizer system adopts following technical scheme:

the utility model provides an intelligent green building's ventilation economizer system, includes the building body, the wind scooper is all installed in rotation on two opposite side upper portions of building body, the wind scooper intercommunication is fixed the air inlet subassembly on the building body, still includes drive wind scooper pivoted drive assembly, and control drive assembly's control assembly action.

By adopting the technical scheme: after the control assembly senses the wind direction, the driving assembly is controlled to act to drive the wind scooper to rotate to a position meeting the wind direction, and more wind can enter the building body under the action of the wind scooper, so that a better ventilation effect is achieved.

Optionally, a mounting cylinder is fixedly mounted on the upper side of the building body, the wind scooper is rotatably mounted in the mounting cylinder, and the wind scooper is connected with the driving assembly.

By adopting the technical scheme: through setting up the mounting cylinder, the better installation wind scooper can make the wind scooper can be convenient for rotate simultaneously.

Optionally, the drive assembly includes the motor that sets up on the building body and the transfer line of being connected with motor drive, is equipped with the mounting panel on the building body, the motor is installed on the mounting panel, the transfer line is connected the wind scooper.

By adopting the technical scheme: after the motor acts, the motor is transmitted to the wind scooper through the transmission rod, so that the wind scooper is driven to rotate to a direction which caters for the wind direction.

Optionally, the output shaft of motor is downward, and the lower extreme fixedly connected with initiative bevel gear of output shaft, initiative bevel gear meshing has the driven bevel gear fixed in the transfer line tip.

By adopting the technical scheme: the driving and transmission structure is simple and easy to realize.

Optionally, an air passing groove is arranged between the air guide cover and the mounting cylinder, and the air passing groove is communicated with the air inlet assembly.

By adopting the technical scheme: through setting up the wind groove, the wind that the wind scooper water conservancy diversion was come in can enter into the air inlet subassembly through the wind groove.

Optionally, the air inlet subassembly includes the air inlet cover with cross wind groove rotation sealing connection, the air inlet cover passes through the pipeline intercommunication air outlet cover, the air outlet cover is towards the inside of building body.

By adopting the technical scheme: the air inlet cover is communicated with the air guide groove, and air guided by the air guide cover enters the air outlet cover through the air inlet cover and the pipeline and then enters the building body through the air outlet cover to realize ventilation.

Optionally, a filter screen plate is arranged at the air outlet cover.

By adopting the technical scheme: through setting up the filter screen plate can filter the wind that gets into this body of building inside, prevent that debris from blowing into the building body inside.

Optionally, the control assembly includes a wind direction sensor disposed on the building body, the wind direction sensor is connected to a controller disposed on the building body, and the controller is electrically connected to a motor of the driving assembly.

By adopting the technical scheme: the wind direction sensor is arranged to sense the current wind direction, then wind direction signals are transmitted to the controller, the controller controls the motor to act to drive the wind scooper to rotate, and the wind scooper is located at a position catering to the wind direction, so that more wind enters the building body, and a better ventilation effect is achieved.

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

1. after the control component senses the wind direction, the driving component is controlled to act to drive the wind scooper to rotate to a position meeting the wind direction, and more wind can enter the building body under the action of the wind scooper, so that a better ventilation effect is achieved;

2. the filter screen plate is arranged to filter wind entering the building body, so that sundries are prevented from being blown into the building body.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

fig. 2 is an enlarged schematic view of the structure a in fig. 1 according to the embodiment of the present application.

Reference numerals illustrate: 100. a building body; 110. a mounting cylinder; 200. a wind scooper; 210. an air guiding sheet; 220. a cylindrical portion; 300. an air inlet assembly; 310. an air inlet cover; 320. a pipeline; 330. an air outlet cover; 340. a filter screen plate; 400. a drive assembly; 410. a motor; 420. a transmission rod; 430. a mounting plate; 440. a drive bevel gear; 450. a driven bevel gear; 500. a control assembly; 510. a wind direction sensor; 520. a controller; 600. and a wind passing groove.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-2.

The embodiment of the application discloses an intelligent ventilating energy-saving system for a green building.

Referring to fig. 1 and 2, an intelligent ventilation energy-saving system for a green building comprises a building body 100, wind scoopers 200 are rotatably mounted on upper portions of two opposite side surfaces of the building body 100, the two wind scoopers 200 are opposite in direction, the wind scoopers 200 are communicated with an air inlet assembly 300 fixed on the building body 100, and the intelligent ventilation energy-saving system further comprises a driving assembly 400 for driving the wind scoopers 200 to rotate, and a control assembly 500 for controlling the driving assembly 400 to act. After the control component 500 senses the wind direction, the driving component 400 is controlled to act to drive the wind scooper 200 to rotate to a position meeting the wind direction, and more wind can enter the building body 100 under the action of the wind scooper 200, so that a better ventilation effect is achieved.

In order to facilitate the installation of the wind scooper 200, the installation cylinder 110 is fixedly installed at the upper side of the building body 100, the wind scooper 200 is rotatably installed in the installation cylinder 110, and the wind scooper 200 is connected with the driving assembly 400.

Specifically, in this embodiment, the wind scooper 200 includes a semi-funnel wind scooper 210 and a cylindrical portion 220 connected to a narrow end of the wind scooper 210, and the cylindrical portion 220 is rotatably connected to the mounting cylinder 110. By providing the mounting cylinder 110, the wind scooper 200 can be better mounted, and the wind scooper 200 can be conveniently rotated.

In order to realize the rotation of the wind scooper 200, the driving assembly 400 in this embodiment includes a motor 410 disposed on the building body 100 and a transmission rod 420 in transmission connection with the motor 410, the building body 100 is provided with a mounting plate 430, the motor 410 is mounted on the mounting plate 430, and the transmission rod 420 is connected with the wind scooper 200. After the motor 410 acts, the motor is transmitted to the wind scooper 200 through the transmission rod 420, so that the wind scooper 200 is driven to rotate to a direction which is in line with the wind direction.

Specifically, the output shaft of the motor 410 is downward, the lower end of the output shaft is fixedly connected with a drive bevel gear 440, and the drive bevel gear 440 is engaged with a driven bevel gear 450 fixed at the end of the transmission rod 420. The driving and transmission structure is simple and easy to realize.

In order to facilitate ventilation, an air passing groove 600 is arranged between the air guiding cover 200 and the mounting cylinder 110, the air passing groove 600 is communicated with the air inlet assembly 300, the specific air passing groove 600 is a through groove formed in the cylinder part 220 at intervals, a groove corresponding to the through groove is formed in the mounting cylinder 110, and through the arrangement of the air passing groove 600, air guided by the air guiding cover 200 can enter the air inlet assembly 300 through the air passing groove 600.

In order to achieve air intake, the air intake assembly 300 includes an air intake cover 310 rotatably and hermetically connected to the air passing groove 600, the air intake cover 310 is communicated with an air outlet cover 330 through a pipeline 320, and the air outlet cover 330 faces the interior of the building body 100. The air inlet cover 310 is communicated with the air guide groove, and the air guided by the air guide cover 200 enters the air outlet cover 330 through the air inlet cover 310 and the pipeline 320 and then enters the building body 100 through the air outlet cover 330 to realize ventilation.

In order to filter impurities in the wind, the air outlet cover 330 is provided with the filter screen 340, and the wind entering the interior of the building body can be filtered by arranging the filter screen 340, so that the impurities are prevented from being blown into the interior of the building body 100.

To achieve intelligent control, the control assembly 500 includes a wind direction sensor 510 provided on the building body 100, the wind direction sensor 510 being connected to a controller 520 provided on the building body 100, the controller 520 being electrically connected to the motor 410 of the driving assembly 400. Through setting up wind direction sensor 510 and can feel current wind direction, then give controller 520 with wind direction signal transmission, controller 520 control motor 410 action drives wind scooper 200 and rotates, and wind scooper 200 is in the position of meeting the wind direction for more wind enters into building body 100 inside, realizes better ventilation effect.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. An intelligent green building's ventilation economizer system, its characterized in that: the novel building comprises a building body (100), wherein wind scoopers (200) are rotatably arranged on the upper parts of two opposite side surfaces of the building body (100), the wind scoopers (200) are communicated with an air inlet assembly (300) fixed on the building body (100), a driving assembly (400) for driving the wind scoopers (200) to rotate, and a control assembly (500) for controlling the driving assembly (400) to act.

2. An intelligent green building ventilation and energy saving system according to claim 1, wherein: the building is characterized in that an installation cylinder (110) is fixedly installed on the upper side of the building body (100), the wind scooper (200) is rotatably installed in the installation cylinder (110), and the wind scooper (200) is connected with the driving assembly (400).

3. An intelligent green building ventilation and energy saving system according to claim 2, wherein: the driving assembly (400) comprises a motor (410) arranged on the building body (100) and a transmission rod (420) in transmission connection with the motor (410), a mounting plate (430) is arranged on the building body (100), the motor (410) is mounted on the mounting plate (430), and the transmission rod (420) is connected with the air guide cover (200).

4. A ventilation and energy saving system for intelligent green buildings according to claim 3, wherein: the output shaft of the motor (410) is downward, the lower end of the output shaft is fixedly connected with a drive bevel gear (440), and the drive bevel gear (440) is meshed with a driven bevel gear (450) fixed at the end part of the transmission rod (420).

5. An intelligent green building ventilation and energy saving system according to claim 2, wherein: an air passing groove (600) is arranged between the air guide cover (200) and the mounting cylinder (110), and the air passing groove (600) is communicated with the air inlet assembly (300).

6. An intelligent green building ventilation and energy saving system according to claim 5, wherein: the air inlet assembly (300) comprises an air inlet cover (310) which is rotationally and hermetically connected with an air passing groove (600), the air inlet cover (310) is communicated with an air outlet cover (330) through a pipeline (320), and the air outlet cover (330) faces the inside of the building body (100).

7. The intelligent green building ventilation and energy saving system of claim 6, wherein: a filter screen plate (340) is arranged at the air outlet cover (330).

8. The intelligent green building ventilation and energy saving system of claim 6, wherein: the control assembly (500) comprises a wind direction sensor (510) arranged on the building body (100), the wind direction sensor (510) is connected with a controller (520) arranged on the building body (100), and the controller (520) is electrically connected with a motor (410) of the driving assembly (400).

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