CN109340146A - Corridor wind energy Automatic Ventilator - Google Patents

Abstract

A kind of corridor wind energy Automatic Ventilator, including a fan leaf, a rotation axis, fan leaf outer frame device and the limiting device for limiting fan leaf maximum pendulum angle；The side of fan leaf central axis is arranged in the rotation axis, and the rotation axis is mounted in fan leaf outer frame device, and the fan leaf is mounted in fan leaf outer frame device by rotation axis.Corridor wind energy Automatic Ventilator of the invention only utilizes corridor wind wind energy can be efficiently actively to indoor air-changing, regardless of wind direction, corridor wind can be entered the room efficiently, and whole process can be no need to consume electric energy or chemical energy, wherein required energy is entirely the wind energy of the Nature.

Description

Corridor wind energy Automatic Ventilator

Technical field

The present invention relates to a kind of building ventilation fields, and in particular to a kind of efficiently actively to be changed to interior using corridor wind wind energy The corridor wind energy Automatic Ventilator of gas.

Background technique

Corridor wind is the general designation for flowing through the moving air between two buildings or in corridor.Currently in order to the ventilation of enhancing building Effect, outer profile all will not be average whole planes, often can all build certain groove as air duct, on the one hand The Brownian movement of air in groove be can use to assist indoor air-changing, on the other hand air in groove is generated using corridor wind Pressure assists indoor air-changing.Indoor air-changing simultaneously is assisted by the flowing of natural air in this air duct formed using groove The actual effect of method is very poor.And in most cases, the wind direction of corridor wind and the angle of plane where window metope are little , even 0(, that is, parallel), when window installs flat push type window (pushing away glass), where plane where window and window metope The angle of plane is close to 0(less parallel), at this moment pushing window open is that can not change the air entered the room to flow to；Work as window When mouth installation rotary shaft (making hinge with loose-leaf) window, enters the room although window can be opened and carry out air inducing to some direction, work as wind To purpose is just not achieved when changing, go to change the direction for opening window except unartificial；Therefore corridor wind is not easy from present building Object window automatically enters interior.Since room ventilation flow is little in its natural state, just it is frequently necessary to open exhaust ventilation Electric fan, but electric energy consumption is so increased, it is unfavorable for energy conservation and environmental protection.

Summary of the invention

The present invention provides a kind of corridor wind energy Automatic Ventilator, only can efficiently actively be changed to interior using corridor wind wind energy Gas, regardless of wind direction, corridor wind can be entered the room efficiently, and whole process can no need to consume electric energy or chemistry Can, wherein required energy is entirely the wind energy of the Nature.Place so as to solve the deficiencies in the prior art.

The technical solution adopted by the present invention is that: a kind of corridor wind energy Automatic Ventilator, including a fan leaf, a rotation axis, wind The limiting device of flabellum outer frame device and limitation fan leaf maximum pendulum angle；The one of fan leaf central axis is arranged in the rotation axis Side, the rotation axis are mounted in fan leaf outer frame device, and the fan leaf is mounted on fan leaf outer frame device by rotation axis It is interior.

Its further technical solution is: the limiting device includes a limiting groove of slide bar I and one I；The limiting groove I It is arranged in fan leaf bottom, the slide bar I can be slidably mounted on fan leaf outer frame device, and the upper end is located in limiting groove I.

Its further technical solution is: the limiting device includes a limiting groove of slide bar II and one II；The slide bar II Fan leaf bottom is slidably set, the limiting groove II is arranged on fan leaf outer frame device, positioned at the lower section of slide bar II, The lower end of the slide bar II is located in limiting groove II.

Its further technical solution is: the limiting device includes a sliding block and two screws being fixed on sliding block, and two A screw is separately positioned on fan leaf two sides, and the sliding block can be slidably mounted on fan leaf outer frame device, by described two A screw is fixed on the sliding block for adjusting required position on fan leaf outer frame device.

Its further technical solution is: the pivot angle of the fan leaf be plane where fan leaf and fan leaf outer frame device it Between the angle α that is formed, the angle α range is positive and negative between 80 °.

Due to taking above-mentioned technical proposal, the corridor wind energy Automatic Ventilator of the present invention is had the following beneficial effects:

1, with the function using corridor wind wind energy automatic air-exchanging: the corridor wind energy Automatic Ventilator of the present invention includes a fan leaf, one Rotation axis, fan leaf outer frame device and the limiting device for limiting fan leaf maximum pendulum angle；The rotation axis is arranged in fan leaf The side of mandrel line, the rotation axis are mounted in fan leaf outer frame device, and the fan leaf is mounted on fan by rotation axis In leaf outer frame device.By installing the corridor wind energy Automatic Ventilator before at window, during the installation process it should be noted that ground Fang Shi, one, the place plane of the fan leaf outer frame device is perpendicular to the plane where window metope；Two, the rotation axis exists Fan leaf central axis far from metope is that side installation of boundary；After installing, corridor wind energy Automatic Ventilator of the invention Fan leaf is deflected around rotation axis using corridor wind wind-force difference caused by the both sides of fan leaf rotation axis, then passes through limit dress The deflection angle for setting limitation corridor wind automatic adjustment fan leaf, so that effectively corridor wind is introduced into air inducing inlet (such as window) Interior, actively give indoor air-changing.The working principle of the corridor wind energy Automatic Ventilator of the present invention, is said in conjunction with Figure 25-Figure 28 It is bright:

These figures of Figure 25, Figure 26, Figure 27, Figure 28 are all the bottom views immediately below window.Here enter using window as air inducing Mouthful, after correctly having installed corridor wind energy Automatic Ventilator, when wind direction is perpendicular to plane where window metope CQ, referring to figure 25, the plane where fan leaf 1 is perpendicular to the plane where window metope CQ, and fan leaf does not deflect at this time, and air will not Interior is directly entered along wind direction with being blocked；When the angle of the plane where wind direction and window metope CQ is not equal to 90 °, ginseng See Figure 26, at this time as act on the wind-force of fan leaf 1 on the in-plane where being parallel to window metope CQ there is point Power, and because rotation axis 3 is asymmetric installation on fan leaf, the wind-force suffered by the both sides of rotation axis 3 of fan leaf 1 is just deposited In difference, fan leaf automatically adjusts the pivot angle of fan leaf, final fan leaf by corridor wind in the range of fan leaf maximum pendulum angle It just deflects to and corridor wind is conducive to introduce indoor position, have partial air that can directly be blown into interior, and have partial air Can because fan leaf there are due to be reflected into interior；And when plane where wind direction is parallel to window metope CQ, air is just It will not be directly entered interior, but interior is forced by the reflex of fan leaf, as shown in Figure 27, Figure 28.

Therefore, by working principle it is found that the corridor wind energy Automatic Ventilator of the present invention can be utilized automatically in use Corridor wind is introduced indoor function to the maximum extent by the energy of corridor wind, is able to achieve regardless of wind direction, corridor wind can be effectively It enters the room, reaches to indoor active ventilation, and whole process need not consume electric energy or chemical energy, wherein required energy Amount is entirely the wind energy (i.e. the kinetic energy of moving air) of the Nature, energy conservation and environmental protection.

2, the flow direction of the adjustable air entered the room, to blow to specified target；

Limiting device of the invention is outside fan leaf and fan leaf for limiting fan leaf maximum pendulum angle, the pivot angle of the fan leaf The angle α formed between plane where frame apparatus, the angle α range are positive and negative between 80 °；

The maximum pendulum angle of fan leaf is limited by limiting device, corridor wind automatically adjusts the size of angle α, and then adjustable entrance The flow direction of indoor air, to blow to specified target；And limiting device can be prevented when wind direction is parallel with air inducing entrance When (7, Figure 28 referring to fig. 2), avoid fan leaf from the case where being equal to positive and negative 90 ° occur around rotation axis rotation or angle α, can be The corridor wind of plane introduces interior where wind direction is parallel to window metope, actively gives indoor air-changing, realizes corridor wind energy automatic air-exchanging It fans to have and corridor wind is automatically introduced indoor function to the maximum extent using the energy of corridor wind.

1, corridor wind energy Automatic Ventilator applicability of the invention is extensive.Such as: (1) in the ventilation opening of building (or wind Road) this corridor wind energy Automatic Ventilator is installed outside, ventilation effect can be enhanced；(2) this corridor wind energy Automatic Ventilator is filled in balcony, can increased Forced ventilation effect；(3) to achieve the goal, first, to the storage room for needing to force ventilation, this corridor wind energy Automatic Ventilator can be installed additional A possibility that saving an electric energy, second can reducing the electrical fire because caused by being electrified for a long time；(4) to greenhouse gardening, aquaculture, The cost of ventilation, ventilation can be saved, economic benefit is increased.

4, corridor wind energy Automatic Ventilator of the invention can also play the role of blocking sunlight.

The technical characteristic of the corridor wind energy Automatic Ventilator of the present invention is described further with reference to the accompanying drawings and examples.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the corridor wind energy Automatic Ventilator of embodiment 1；

Fig. 2 is the cross-sectional view of A-A in Fig. 1；

Fig. 3 is the cross-sectional view of B-B in Fig. 1；

Fig. 4 is the fan leaf bottom substance schematic diagram of embodiment 1；

Fig. 5 is the slide bar I and I connection schematic diagram of sliding slot of embodiment 1；

Fig. 6-Fig. 9 is the limiting device use state diagram of embodiment 1.

Figure 10 is the limit device structure schematic diagram of embodiment 2；

Figure 11 is the fan leaf bottom substance schematic diagram of embodiment 2；

Figure 12-Figure 15 is the limiting device use state diagram of embodiment 2；

Figure 16 is that fan leaf is connected by a hinge the front view of rotation axis；

Figure 17 is the right view of Figure 16；

Figure 18 is Figure 16 top view

Figure 19 is waveform fan leaf positive structure schematic；

Figure 20 is the right view of Figure 19；

Figure 21 is the top view of Figure 19.

Figure 22 is the status diagram that the present invention is mounted on outside window net；

Figure 23 is the status diagram that the present invention is mounted in window net；

Figure 24 is the limit device structure schematic diagram of embodiment 3；

Figure 25-Figure 28 is the working principle diagram of the corridor wind energy Automatic Ventilator of the present invention.

In figure:

1- fan leaf, 2- fan leaf outer frame device, 3- rotation axis；

41a- slide bar I, 42a- sliding slot I, 43a- limiting groove I；

41b- slide bar II, 42b- sliding slot II, 43b- limiting groove II；

41c- screw, 42c- sliding block；

5- hinge or loose-leaf.

Letter in figure indicates:

O-O indicates fan leaf central axis；CQ indicates that window metope, C indicate indoor side；

DC indicates the plane where the installation of fan leaf outer frame device；The upper base surface of M expression fan leaf outer frame device；CW is indicated Window net；The branch of CWZ- expression window net.

Arrow direction in Figure 25, Figure 26, Figure 27, Figure 28 indicates wind direction.

Specific embodiment

A kind of corridor wind energy Automatic Ventilator, including a fan leaf, a rotation axis, fan leaf outer frame device and limitation fan leaf The limiting device of maximum pendulum angle；The side of fan leaf central axis is arranged in the rotation axis, i.e., the described rotation axis and fan leaf The distance of central axis is greater than 0, and the specific installation site of rotation axis can be according to the comprehensive condition for needing the air quantity obtained and efficiency Depending on.The rotation axis is mounted in fan leaf outer frame device, and the fan leaf is mounted on fan leaf outline border by rotation axis and fills In setting.The fan leaf can turn around moving axis rotation.

The pivot angle of the fan leaf is the angle α formed between plane where fan leaf and fan leaf outer frame device, described Angle α range is positive and negative between 80 °.

It is different with the mode of installation according to limit device structure, there are following several different embodiments:

Embodiment 1:

The basic structure of the corridor wind energy Automatic Ventilator of the present embodiment 1 is as described above, referring to Fig. 1-Fig. 2, the tool including a rectangle There are certain thickness fan leaf 1a, a rotation axis 3, fan leaf outer frame device 2 and limiting device；The rotation axis 3 is arranged in wind The side of flabellum central axis O-O, the rotation axis 3 are mounted in fan leaf outer frame device 2, and the fan leaf 1 passes through rotation Axis 3 is mounted in fan leaf outer frame device 2.Limiting device combination Fig. 3, Fig. 4, Fig. 5 of the present embodiment 1 are illustrated, the limit Device includes I 43a of I 41a of a slide bar and a limiting groove；I 43a of the limiting groove setting is located at rotation in fan leaf bottom The left side of axis.I 42a(of a sliding slot is offered referring to Fig. 5 in the upper base surface of fan leaf outer frame device 2), the sliding slot I 42a In the lower section of I 43a of limiting groove；I 41a of slide bar is arranged in I 42a of sliding slot and can slide in I 42a of sliding slot, thereon End is located in I 43a of limiting groove.The limiting device of the present embodiment 1 passes through the position different in I 42a of sliding slot mobile I 41a of slide bar Setting, which is stuck in I 41a of slide bar on I 43a inner wall of limiting groove, limits fan leaf maximum pendulum angle, for example, adjusting when I 41a of slide bar When to the right of I 42a of sliding slot, the maximum angle α 1 of fan leaf deflection is as shown in Figure 6, Figure 7；When I 41a of slide bar is adjusted to sliding slot When the left side of I 42a, the maximum angle α 2 of fan leaf deflection is as shown in Figure 8, Figure 9；As can be seen from Figure, I 41a of slide bar is in cunning Maximum angle α 1 when the right of I 42a of slot is bigger than maximum angle α 2 of I 41a of slide bar at the left side of I 42a of sliding slot.Therefore wind Flabellum maximum pendulum angle can be adjusted.

Embodiment 2:

The basic structure of the corridor wind energy Automatic Ventilator of the present embodiment 2 is as described in Example 1, institute the difference is that: this implementation The fan leaf thickness of example 2 is thin compared with embodiment 1, and the mounting means of the limiting device of the present embodiment 2 is different.Specifically include a rectangle Fan leaf 1b, a rotation axis 3, fan leaf outer frame device and limiting device；The rotation axis 3 is arranged in fan leaf central axis Side, the rotation axis 3 is mounted in fan leaf outer frame device, and the fan leaf is mounted on outside fan leaf by rotation axis 3 In frame apparatus.Limiting device combination Figure 10 of the present embodiment 2 is illustrated, which includes the limit of II 41b of a slide bar and one Position groove II 43b；II 41b of slide bar is arranged by II 42b of sliding slot in fan leaf bottom, II 43b of the limiting groove setting On fan leaf outer frame device, positioned at the lower section of II 41b of slide bar, the lower end of II 41b of slide bar is located at II 43b of limiting groove It is interior.II 41b of slide bar and the connection type of II 42b of sliding slot are referred to I 41a of slide bar in embodiment 1 and connect with I 42a of sliding slot Mode.The limiting device of the present embodiment 2 makes II 41b card of slide bar by the position different in II 42b of sliding slot mobile II 41b of slide bar Fan leaf maximum pendulum angle is limited on II 43b inner wall of limiting groove, for example, when II 41b of slide bar is adjusted to II 42b's of sliding slot When the right, the maximum angle α 3 of fan leaf deflection is as shown in Figure 12 and Figure 13；When the left side for II 41b of slide bar being adjusted to II 42b of sliding slot Bian Shi, the maximum angle α 4 of fan leaf deflection is as shown in Figure 14, Figure 15；As can be seen from Figure, II 41b of slide bar is in sliding slot II Maximum angle α 3 when the right of 42b is bigger than maximum angle α 4 of II 41b of slide bar at the left side of II 41b of sliding slot.Therefore wind Flabellum maximum pendulum angle can be adjusted.

The corridor wind energy Automatic Ventilator installation method of embodiment 1 and embodiment 2, may refer to the mounting means of Figure 22, It is online that fan leaf outer frame device is mounted on non-bulging window outside window, also may be mounted on the metope of window, also may be mounted at Balcony or French window, distance of distance of the rotation axis away from metope than the central axis of fan leaf away from metope are remote.Work as installation In balcony or French window, the lower part of fan leaf outer frame device 2 can be fixed on the ground, the top of fan leaf outer frame device 2 It can be fixed on window hood, I 42a of limit sliding chutes or II 43b of limiting groove can be fixed on the ground.

Embodiment 3:

The corridor wind energy Automatic Ventilator of the present embodiment 3 includes a fan leaf, a rotation axis, fan leaf outer frame device and limitation fan The limiting device of leaf maximum pendulum angle；The side installation hinge or loose-leaf 5(of the fan leaf are referring to Figure 16-Figure 18), the hinge Or loose-leaf 5 is mounted on fan leaf outer frame device side as rotation axis；The limiting device includes that sliding block 42c and two are solid The screw 41c being scheduled on sliding block 42c；Described two screw 41c are arranged in fan leaf two sides, and the sliding block 42c is slidably mounted On fan leaf outline border.The limiting device of the present embodiment 3 is made by adjusting slider 42c and the relative distance of hinge or loose-leaf 5 Fan leaf is stuck between two screw 41C and limits fan leaf maximum pendulum angle, for example, when sliding block 42c is close to hinge or loose-leaf 5 Maximum angle than sliding block 42c far from hinge or loose-leaf 5 when maximum angle it is big.Therefore fan leaf maximum pendulum angle can carry out It adjusts.

As a kind of transformation of the present embodiment 3, when there is protrusion window net outside window for window, referring to fig. 23, it can be with Using window net as fan leaf outer frame device, loose-leaf 5 is installed far from window metope, and the half of loose-leaf is fixed on fan leaf, To be fixed on window online for the other half of loose-leaf；The limiting device includes sliding block 42c and two screws being fixed on sliding block 42c The screw hole for fixing screws 41c is offered on 41c, the sliding block 42c, the both ends of the sliding block 42c are in hook solid and difference It covers on the branch of window net and can be slided on branch；Two screw 41c setting, can be in fan leaf two sides (referring to fig. 2 4) It is online that the later sliding block 42c of adjusting good position is temporarily fixed at window.The limiting device passes through adjusting slider 42c and hinge or work The relative distance of page 5 limits fan leaf maximum pendulum angle.

Several corridor wind energy Automatic Ventilators for being easier to implement are listed in the above-described embodiments, it should be understood that Fan leaf of the invention can be planar, for example, rectangle circle ellipse hexagon or other flat Planar；It is also possible to concave-convex, ripple effective plane (referring to Figure 19-Figure 21), the corrugated fan leaf 1c can not only subtract Light weight can also increase intensity.Fan leaf outer frame device of the invention is according to aesthetics and hobby and installation environment, when implementation It can not just be enumerated one by one herein there are many concrete shape；Limiting device of the invention is various informative, flexible for installation, can also be used Existing shaft limiting device limits the maximum pivot angle of fan leaf.

Part that the present invention does not relate to is the same as those in the prior art or can be realized by using the prior art.The above content is knots Close specific preferred embodiment further detailed description of the invention the specific implementation office, and it cannot be said that of the invention It is limited to the record of the various embodiments described above, for those of ordinary skill in the art to which the present invention belongs, is not departing from this hair Under the premise of bright design, a number of simple deductions or replacements can also be made, all shall be regarded as belonging to the power of the invention by being submitted The scope of patent protection that sharp claim determines.

Claims (5)

1. a kind of corridor wind energy Automatic Ventilator, it is characterised in that: including a fan leaf, a rotation axis, fan leaf outer frame device and Limit the limiting device of fan leaf maximum pendulum angle；The side of fan leaf central axis, the rotation axis is arranged in the rotation axis It is mounted in fan leaf outer frame device, the fan leaf is mounted in fan leaf outer frame device by rotation axis.

2. wind energy Automatic Ventilator in corridor according to claim 1, it is characterised in that: the limiting device includes a slide bar I With a limiting groove I；The limiting groove I is arranged in fan leaf bottom, and the slide bar I can be slidably mounted at fan leaf outline border dress It sets, the upper end is located in limiting groove I.

3. wind energy Automatic Ventilator in corridor according to claim 1, it is characterised in that: the limiting device includes a slide bar II With a limiting groove II；Fan leaf bottom is slidably arranged in the slide bar II, and the limiting groove II is arranged outside fan leaf On frame apparatus, positioned at the lower section of slide bar II, the lower end of the slide bar II is located in limiting groove II.

4. wind energy Automatic Ventilator in corridor according to claim 1, it is characterised in that: the limiting device include a sliding block and Two screws being fixed on sliding block, two screws are separately positioned on fan leaf two sides, and the sliding block can be slidably mounted at On fan leaf outer frame device.

5. wind energy Automatic Ventilator in corridor according to claim 1 to 4, it is characterised in that: the pivot angle of the fan leaf is The angle α formed between plane where fan leaf and fan leaf outer frame device, the angle α range are positive and negative between 80 °.