CN213063366U - Protective wind wall generating device - Google Patents

Abstract

The utility model discloses a protection wind wall generates device, protection wind wall generates device includes: a window; the air outlet fan body is arranged at the edge of the window and provided with a cavity, and a plurality of air holes for ejecting air flow are formed in the side wall of the cavity; and the power equipment is connected with the air outlet fan body and is used for generating high-pressure air flow and transmitting the high-pressure air flow to the air outlet fan body, and the air flow is sprayed out from the air holes, so that the window generates an air wall from the inside of the window to the outside of the window. The utility model provides a protection wind wall generates device, door and window when opening, will produce one from the window inside to the outer wind wall of window, can completely cut off the bacterial virus in mosquito, dust and the air.

Description

Protective wind wall generating device

Technical Field

The utility model relates to a mosquito-proof worm, dust and germ technical field, specifically speaking relates to a protection wind wall generates device.

Background

Present all kinds of windows and doors are ordinary glass window or ordinary metal door, and it can have several problems when opening the window or opening the door:

1. there is a problem of mosquito leakage, which would cause great harm to the user's experience if mosquitoes are present in a relatively closed space.

2. The dust pollution problem exists, the dust pollution influences the body health, and the cleaning cost is increased.

3. The hidden danger of bacteria and virus invasion exists, and doors and windows of common vehicles do not have the standard of opening and closing in an epidemic prevention scene according to epidemic prevention requirements in a closed place.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a protection wind wall generates device, door and window when opening, will produce one from the window inside to the outer wind wall of window, can completely cut off the bacterial virus in mosquito, dust and the air.

The utility model discloses a technical scheme that protection wind wall generated device adopted is:

a protective headwall generation apparatus comprising: a window; the air outlet fan body is arranged at the edge of the window and provided with a cavity, and a plurality of air holes for ejecting air flow are formed in the side wall of the cavity; and the power equipment is connected with the air outlet fan body and is used for generating high-pressure air flow and transmitting the high-pressure air flow to the air outlet fan body, and the air flow is sprayed out from the air holes, so that the window generates an air wall from the inside of the window to the outside of the window.

Preferably, the window is a door window or a window of a vehicle, and the vehicle is one of an automobile, an aircraft, a ship and a train.

Preferably, the window is a door window or a window of a building, and the building is one of a residential building, a public building, an industrial building and an agricultural building.

Preferably, the air holes comprise vertical air outlet holes and inclined air outlet holes, the air outlet direction of the vertical air outlet holes is perpendicular to the window, and the air outlet direction of the inclined air outlet holes is not perpendicular to the window.

Preferably, the window further comprises an air extraction device for extracting air flow to the space within the window.

The utility model also provides a protection wind wall generates device, include: the plurality of brackets surround at least one window; the air outlet fan body is arranged on the support, a cavity is formed in the air outlet fan body, and a plurality of air holes for ejecting air flow are formed in the side wall of the cavity; and the power equipment is connected with the air outlet fan body and is used for generating high-pressure air flow and transmitting the high-pressure air flow to the air outlet fan body, and the air flow is sprayed out from the air holes, so that the window generates an air wall from the inside of the window to the outside of the window.

As a preferred scheme, a plurality of the brackets are arranged on a semi-open product, and the semi-open product is one of a mask, a helmet, a baby carriage, a bed, a sofa, a table, a chair and a tent.

As a preferred scheme, a plurality of the supports are arranged in a full-open type space, and the full-open type space is one of a cushion, a stage and a platform.

Preferably, when more than two of said windows are included, one of said windows is provided with a filter.

Preferably, the window further comprises an air extraction device for extracting air flow to the space within the window.

The utility model discloses an embodiment's beneficial effect is: the power equipment transmits the generated high-pressure airflow to the air outlet fan body, and the air outlet fan body ejects the airflow at high speed through the air holes. Because the air pressure of the air flow is smaller when the air flow is faster, the air pressure outside the window is smaller than the air pressure inside the window along with the ejection of the high-speed air flow by the air outlet fan body, and then the air inside the window flows to the outside of the window, so that the window generates an air wall from the inside of the window to the outside of the window. The wind wall can well isolate mosquitoes, dust and bacteria and viruses in the air.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the protective air wall generating device of the present invention.

Fig. 2 is another schematic structural diagram of the first embodiment of the protective air wall generating device of the present invention.

Fig. 3 is a schematic structural diagram of a second embodiment of the protective air wall generating device of the present invention.

Fig. 4 is another schematic structural diagram of the second embodiment of the protective air wall generating device of the present invention.

Fig. 5 is another schematic structural diagram of the second embodiment of the protective wind wall generating device of the present invention.

Detailed Description

The invention will be further elucidated and described with reference to the following embodiments and drawings in which:

example one

Referring to fig. 1, the protective wind wall generating apparatus includes:

a window 10;

and the air outlet fan body 20 is arranged at the edge of the window 10. The air outlet fan body 20 is provided with a cavity, and a plurality of air holes 30 for ejecting air flow are arranged on the side wall of the cavity.

And the power equipment 40, wherein the power equipment 40 is connected with the air outlet fan body 20. The power device 40 is used for generating high-pressure airflow and transmitting the high-pressure airflow to the air outlet fan body 20, and after the airflow is sprayed out from the air holes 30, the window 10 generates an air wall from the inside of the window to the outside of the window.

The power device 40 transmits the generated high-pressure airflow to the air outlet fan body 20, and the air outlet fan body 20 ejects the airflow at a high speed through the air hole 30. Because the air pressure of the faster air flow is smaller, as the air outlet fan body 20 ejects the high-speed air flow, the air pressure outside the window is smaller than the air pressure inside the window, and then the air inside the window flows to the outside of the window, so that the window 10 generates a wind wall from the inside of the window to the outside of the window. The wind wall can well isolate mosquitoes, dust and bacteria and viruses in the air.

In the present embodiment, the window 10 is a window of various doors and windows, including but not limited to building doors, building windows, vehicle windows and vehicle doors, such as doors and windows of residential rooms, doors and windows of office departments, doors and windows of automobiles, doors and windows of trains, doors and windows of ships, and the like. The vehicle may be one of an automobile, an aircraft, a ship, and a train. The building may be one of a residential building, a public building, an industrial building, and an agricultural building. In the above scenario, the space is basically a relatively closed space, and the user can get in and out the space only by opening and closing the door body. In the opening and closing process of the door body, the problems of mosquito leakage, dust pollution and bacteria and viruses in the air exist, and the purpose of the embodiment is to solve the problem of how to prevent the mosquitoes, the dust and the bacteria and viruses in the air when a user enters and exits a relatively closed space.

In the present embodiment, a building door will be described in detail. The window 10 is a window of a door body, and in order to match the shape of the window 10, the air outlet fan body 20 is in a long strip shape and is arranged close to the edge of the window 10. The air outlet fan body 20 may be integrally formed and then matched with the shape of the window 10, or may be formed by splicing a plurality of segmented fan bodies and then matched with the shape of the window 10, and the air outlet fan body 20 in this embodiment includes four fan bodies which are respectively arranged in four directions, namely, the upper direction, the lower direction, the left direction and the right direction of the window 10.

In another embodiment, the window 10 is an aircraft window, the fan body 20 is disposed at the edge of the aircraft window, and the power device 40 is disposed inside the aircraft. The aircraft can be airplanes, helicopters and other flight carriers, and in the process of opening and closing the doors or windows of the aircraft, the air outlet fan body 20 forms an external air wall without dead angles of three hundred and sixty degrees, so that air isolation is performed, and mosquitoes, bacteria, viruses and air dust can be effectively and automatically prevented from invading the aircraft.

In another embodiment, the window 10 is a window of an automobile, the air outlet fan body 20 is disposed at an edge of the window of the automobile, and the power equipment 40 is disposed inside the automobile. In the process of opening and closing the door or the window of the automobile, the air outlet fan body 20 forms an external air wall without dead angles of three hundred sixty degrees, so that air isolation is performed, and the invasion of mosquitoes, bacteria, viruses and air dust to the automobile can be effectively and automatically isolated.

Referring to fig. 2, specifically, the air holes 30 on the air outlet fan body 20 include vertical air outlet holes 32, and an air outlet direction of the vertical air outlet holes 32 forms a vertical angle with the window 10. Further, the air holes 30 further include inclined air outlet holes 34, and an air outlet direction of the inclined air outlet holes 34 forms a non-perpendicular angle with the window 10. When the area of the window 10 is large, the air pressure at the center of the window 10 is less affected by the air flow ejected from the vertical air outlet 32, resulting in a weak air wall at the center of the window 10. At this time, the inclined air outlet holes 34 are arranged close to the window 10, and the air outlet direction of the inclined air outlet holes is deviated to the central position of the window 10, so that the inclined air outlet holes are used for weakening the air pressure at the central position of the window 10 and increasing the strength of the generated air wall on one hand, and can supplement the strength of the air wall on the other hand. When the area of the window 10 is smaller, the inclined air outlet 34 is disposed away from the window 10, and the air outlet direction thereof is away from the center of the window 10.

The inboard of gas pocket is formed with the chamber that gives sound insulation, and when the air-out fan body during operation, the pneumatic noise that the air current was spout from the gas pocket and was formed can be by in the chamber reflection return air flue that gives sound insulation for the difficult follow gas pocket of noise is to the outside transmission of air-out fan body, consequently, can effectively reduce the pneumatic noise of gas pocket department like this.

Power equipment 40 includes the casing, is equipped with motor, wind wheel and diffuser in the casing, motor, wind wheel and diffuser connect gradually. The wind wheel is driven by the motor to suck the outside air into the casing, and the diffuser is used for increasing the flow of the air conveyed to the air outlet fan body 20. The casing may be directly communicated with the air outlet fan body 20, or may be communicated with the air outlet fan body 20 through an air guide pipe.

The protective air wall generating device further comprises an air extracting device, and the air extracting device is used for extracting air flow to the space in the window. Because the formation of the air wall requires that the air flow in the window flows out of the window, enough air is required to be kept in the window, and generally, a ventilation opening is arranged in a relatively closed space, but under the condition that the relatively closed space is small, a ventilation device is additionally arranged. In this embodiment, the air extracting device may be disposed in the relatively sealed space, or may be disposed outside the relatively sealed space, and the air extracting device extracts external air flow into the relatively sealed space. Furthermore, the process of air exhaust can be carried out with mosquito prevention, dust prevention, bacteria prevention and virus prevention treatment according to the requirement, for example, a filter screen is added.

The embodiment also provides a use method of the protective wind wall generating device, which is used for the protective wind wall generating device, and the method includes:

step 100: starting the power equipment to enable the air outlet fan body to spray air flow;

step 200: opening a blocking piece for covering the window to enable the window to generate a wind wall from the inside of the window to the outside of the window;

step 300: closing the blocking piece for covering the window to stop the window from generating the wind wall;

step 400: and closing the power equipment to stop the air outlet fan body from spraying air flow.

The use method can be realized fully manually or automatically. In this embodiment, a window of an automobile is taken as an example for explanation, and when a user presses a window opening button, a controller in the automobile will first control a power device to open, so that an air outlet fan body sprays air flow. After a delay, the glazing is then lowered so that the window creates a wind wall from inside the glazing to outside the glazing. When a user presses a window closing button, the controller in the vehicle can control the glass window to ascend until the glass window completely seals the window, so that the window stops generating the air wall. And then the power equipment is controlled to be closed, so that the air outlet fan body stops spraying air flow.

It will be appreciated that the above method, when implemented automatically, requires electrical connection with the power unit and the driving device of the closure member respectively via a control module containing a control chip, and also requires a sensor for detecting the position to detect whether the closure member is fully opened or closed, such as a photoelectric sensor. Then the control module respectively controls the start and the stop of the power equipment and the stop piece.

Example two

Referring to fig. 3, the protective wind wall generating apparatus includes:

the device comprises a plurality of brackets 11, wherein at least one window 12 is formed by surrounding the brackets 11;

the air outlet fan body 20 is arranged on the support 11, a cavity is formed in the air outlet fan body 20, and a plurality of air holes 30 for ejecting air flow are formed in the side wall of the cavity;

the power equipment 40 is connected with the air outlet fan body 20, the power equipment 40 is used for generating high-pressure air flow and transmitting the high-pressure air flow to the air outlet fan body 20, and after the air flow is sprayed out from the air holes 30, the window 12 generates an air wall from the inside of the window to the outside of the window.

In this embodiment, the support 11 may be used in a fully open space, or may be a semi-open space, such as a location adjacent to a wall, a space on a bed, or the like. In the above-described scene, there is basically a relatively open space in which the user may stay for a long time and exchange air in the external space at all times. In the air exchange process, the problems of mosquito entry, dust pollution and bacteria and viruses in the air exist, and the purpose of the embodiment is to solve the problem of how to prevent the mosquitoes, the dust and the bacteria and viruses in the air when a user is in a relatively open space.

In this embodiment, a fully open space is used for the detailed description, and the fully open space may be one of a seat cushion, a stage, and a platform. Twelve supports 11 enclose a hexahedron, and other polyhedrons can be enclosed by other numbers of supports 11. The hexahedron comprises six windows 12, only the other five faces corresponding to the windows 12, since the bottom face is against the ground. The air outlet fan body 20 is in a long strip shape and is fixed on the support 11, the air outlet fan body 20 can be integrally formed and then matched with the shape of the window 12, or can be formed by splicing a plurality of segmented fan bodies and then matched with the shape of the window 12. In this embodiment, the bracket 11 of each window 12 is provided with an air outlet fan body 20. When the fully open space is changed to a half open space, the corresponding window 12 and the bracket 11 are reduced, for example, the top surface is a ceiling to reduce the top window 12, and the side edge is a wall to reduce the side window 12, or the half open space may be a half open type product, which may be one of a mask, a helmet, a baby carriage, a bed, a sofa, a table, a chair, and a tent. In another embodiment, the partial window 12 of the hexahedron or polyhedron may be actively closed, so that the hexahedron or polyhedron is a semi-open space itself, and then applied to a suitable scene.

Referring to fig. 4, in another embodiment, when the bracket 11 encloses more than two windows 12, one of the windows 12 is provided with a filter 50. For example, a filter screen is provided, in which the window 12 provided with the filter screen is used as an inlet of the air flow, and then the air flow is discharged through other windows 12 to form a wind wall, and the filter screen can filter the inflowing air and can set different levels of filtering measures according to actual requirements.

In another embodiment, the plurality of brackets 11 are disposed on the bed, the air outlet fan body 20 is disposed on the brackets 11, and the power equipment is connected to the air outlet fan body. The bed may be a normal bed, a crib or the like for sleeping and resting. The air-out fan body 20 forms an external air wall without dead angles of three hundred and sixty degrees, and air isolation is carried out, so that the bed can effectively and automatically block mosquitoes, bacteria, viruses and air dust.

Specifically, the air holes 30 of the air outlet fan body 20 include vertical air outlet holes, and the air outlet direction of the vertical air outlet holes forms a vertical angle with the window 12. Further, the air holes 30 further include an inclined air outlet, and an air outlet direction of the inclined air outlet is at a non-perpendicular angle with the window 12. When the area of the window 12 is large, the air pressure at the center of the window 12 is less affected by the air flow ejected from the vertical air outlet, resulting in a weak air wall at the center of the window 12. At this time, the inclined air outlet hole is arranged close to the window 12, and the air outlet direction of the inclined air outlet hole is deviated to the central position of the window 12, so that the inclined air outlet hole is used for weakening the air pressure at the central position of the window 12 and increasing the strength of the generated air wall on one hand, and the inclined air outlet hole can supplement the strength of the air wall on the other hand. When the area of the window 12 is smaller, the inclined air outlet is far away from the window 12, and the air outlet direction is far away from the center of the window 12. The inboard of gas pocket is formed with the chamber that gives sound insulation, and when the air-out fan body during operation, the pneumatic noise that the air current was spout from the gas pocket and was formed can be by in the chamber reflection return air flue that gives sound insulation for the difficult follow gas pocket of noise is to the outside transmission of air-out fan body, consequently, can effectively reduce the pneumatic noise of gas pocket department like this.

Power equipment 40 includes the casing, is equipped with motor, wind wheel and diffuser in the casing, motor, wind wheel and diffuser connect gradually. The wind wheel is driven by the motor to suck the outside air into the casing, and the diffuser is used for increasing the flow of the air conveyed to the air outlet fan body 20. The casing may be directly communicated with the air outlet fan body 20, or may be communicated with the air outlet fan body 20 through an air guide pipe.

The protective air wall generating device further comprises an air extracting device, and the air extracting device is used for extracting air flow to the space in the window. Since the formation of the wind-break requires the air flow in the window to flow out of the window, it is necessary to ensure that there is sufficient air in the window. In this embodiment, the air extracting device may be disposed in the space inside the window or in the space outside the window, and the air extracting device extracts the external air flow into the relatively closed space. Furthermore, the process of air exhaust can be carried out with mosquito prevention, dust prevention, bacteria prevention and virus prevention treatment according to the requirement, for example, a filter screen is added.

Referring to fig. 5, in another embodiment, a door or window type blocking member 60 may be installed on the bracket 11 of the window 12.

The embodiment also provides a use method of the protective wind wall generating device, which is used for the protective wind wall generating device, and the method includes:

step 100: starting the power equipment to enable the air outlet fan body to spray air flow;

step 200: opening a blocking piece for covering the window to enable the window to generate a wind wall from the inside of the window to the outside of the window;

step 300: closing the blocking piece for covering the window to stop the window from generating the wind wall;

step 400: and closing the power equipment to stop the air outlet fan body from spraying air flow.

The use method can be realized fully manually or automatically. It will be appreciated that the above method, when implemented automatically, requires electrical connection with the power unit and the driving device of the closure member respectively via a control module containing a control chip, and also requires a sensor for detecting the position to detect whether the closure member is fully opened or closed, such as a photoelectric sensor. Then the control module respectively controls the start and the stop of the power equipment and the stop piece.

It should be finally noted that the above embodiments are only intended to illustrate the technical solutions of the present invention, and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.

Claims (10)

1. A protective headwall generating device, comprising:

a window;

the air outlet fan body is arranged at the edge of the window and provided with a cavity, and a plurality of air holes for ejecting air flow are formed in the side wall of the cavity;

and the power equipment is connected with the air outlet fan body and is used for generating high-pressure air flow and transmitting the high-pressure air flow to the air outlet fan body, and the air flow is sprayed out from the air holes, so that the window generates an air wall from the inside of the window to the outside of the window.

2. The apparatus of claim 1, wherein the window is a door or window of a vehicle, and the vehicle is one of an automobile, an aircraft, a ship, and a train.

3. The protective wind wall generating apparatus according to claim 1, wherein the window is a door window or a window of a building, and the building is one of a residential building, a public building, an industrial building, and an agricultural building.

4. The apparatus as claimed in claim 1, wherein the air holes comprise a vertical outlet and an inclined outlet, the vertical outlet has an outlet direction perpendicular to the window, and the inclined outlet has an outlet direction non-perpendicular to the window.

5. The protective wind wall generating apparatus according to claim 1, further comprising an air extracting means for extracting air flow to the space within the window.

6. A protective headwall generating device, comprising:

the plurality of brackets surround at least one window;

the air outlet fan body is arranged on the support, a cavity is formed in the air outlet fan body, and a plurality of air holes for ejecting air flow are formed in the side wall of the cavity;

and the power equipment is connected with the air outlet fan body and is used for generating high-pressure air flow and transmitting the high-pressure air flow to the air outlet fan body, and the air flow is sprayed out from the air holes, so that the window generates an air wall from the inside of the window to the outside of the window.

7. The protective headwall generating device of claim 6, wherein a plurality of the brackets are provided on a semi-open product, the semi-open product being one of a mask, a helmet, a stroller, a bed, a sofa, a table, a chair, and a tent.

8. The protective wind wall generating device according to claim 6, wherein a plurality of the brackets are provided in an all-open space, and the all-open space is one of a seat cushion, a stage and a platform.

9. A protective wind-wall generating device according to claim 6, wherein when more than two of said windows are included, one of said windows is provided with a filter.

10. The protective wind wall generating apparatus according to claim 6, further comprising an air extracting means for extracting air flow to the space within the window.

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