KR20130013006A - Ventilation system of non-power structure - Google Patents

Abstract

PURPOSE: An indoor ventilation device of a non-power structure is provided to improve a polluted air discharging ability and to save energy. CONSTITUTION: An indoor ventilation device(1) of a non-power structure comprises an orifice pipe(2), an air inhalation tapered hole(6), an air discharging tapered hole(8), a weathercock(19), a supporting member(4), a polluted air discharging hose(13), and an air passage(18). The orifice pipe includes a hole and is installed to be rotate-moved throughout 360° by wind. The air discharging tapered hole is linearly communicated with the air inhalation tapered hole, and an outlet where air is discharged is formed in a rear end of the orifice pipe. The supporting member supports the orifice pipe to be rotatable and fix-installed on a wall surface of a building. One end of the polluted air discharging hose is fitted into the supporting member. The other end with of the polluted air discharging hose is extended lengthy toward a floor surface of the building. The air passage is formed in the orifice pipe so that the polluted air is discharged through the hole of the orifice pipe. [Reference numerals] (AA) Polluted air

Description

Ventilation system of non-powered structure

The present invention relates to an indoor ventilation apparatus, and more particularly, to an indoor ventilation apparatus of a non-powered structure that can efficiently discharge the polluted air remaining in every corner of the room to the outside.

The air in an enclosed space increases the carbon dioxide content over time due to the breathing of living things, which interferes with the breathing of living things. Therefore, if many people stay in a narrow space such as an office or a vehicle, it is necessary to frequently replace the indoor air with fresh air. At this time, a commonly used ventilation device.

Most conventional ventilation apparatuses adopt a method of forcibly discharging indoor polluted air to the outside through the operation of a blower fan by installing a blower electrically driven on a wall or a window of a building.

However, the air remaining in the room is gradually warmed up by people's breathing activity or heating, and then rises due to convection, so that the blower is usually installed on the upper wall or upper part of the window to forcibly discharge the polluted and warmed air to the outside. Doing.

However, since the electric drive type blower device requires supply of electricity to drive the motor to rotate the fan, there is a problem that energy consumption is required for indoor ventilation, and the air near the blower is installed at a high side of the wall. As the bay is discharged to the outside, it takes a lot of time before the air in the place away from the blower is ventilated, and it has always been pointed out that the actual freshness felt by people in the contaminated indoor space is much lower. In the case of the gas remains in the lower position of the room, despite the ventilation operation is not quickly and easily discharged to the outside has a problem that adversely affects the human body and the turbidity of the room does not easily disappear.

In particular, gaseous fuels used at home (for example, cooking or heating gas and their combustion gases) are heavier than air and remain low on the floor when leaking, and are not easily discharged to the outside, causing suffocation or explosion. In addition, in case of leakage of uncombusted gas, in particular, when the electric switch is turned on to drive the fan fan motor, it may lead to an explosion due to the occurrence of an electric spark. This is required.

Accordingly, the present invention has been proposed in view of the above-mentioned problems, and its purpose is a non-powered method, which does not require electric energy and is environmentally friendly. In addition, the present invention is to provide a non-powered indoor ventilation system that automatically aligns with the wind direction and improves indoor polluted air discharge according to the use of capillary principle.

The indoor ventilation apparatus of the non-powered structure of the present invention for achieving the above object has an orifice tube having a hole communicating in the longitudinal direction, and installed in the outdoor to enable rotational movement in a 360 ° direction by wind; An air intake taper hole formed with an inlet through which air is introduced at the tip of the orifice tube and gradually decreasing in diameter toward an orifice hole located rearwardly; An air discharge taper hole communicating with the air suction taper hole in a straight line, and having an outlet port through which air is discharged at a rear end of the orifice tube body and gradually increasing in diameter toward the rear from the orifice hole; A wind vane mounted on an upper circumference of the orifice tube to align the orifice tube to match the flow direction of air according to a wind direction; A support member rotatably supporting the orifice tube and fixedly installed on a wall of the building; One end is connected to the support member is connected, the other end having a contaminated air intake port is contaminated air discharge hose extending long toward the floor of the building; And an air passage formed in the orifice tube to discharge the contaminated air suctioned from the contaminated air discharge hose through the orifice hole.

According to a preferred embodiment of the present invention, the orifice tube is rotatably supported with respect to the support member via a bearing.

In addition, the present invention is characterized in that the sealing member for blocking the air leakage is provided at the connection portion between the orifice tube and the support member.

According to the present invention, the orifice tube is always matched to the direction of the wind by the wind vane, so that the maximum flow rate of air passing through the center hole is maintained without loss. As the pressure is reduced by Bernoulli's theorem, the force to extract contaminated air from the room is increased through the hose, that is, through the air intake taper hole, and through the orifice hole, Due to the strong negative pressure generated at the orifice hole, the contaminated air in the room is forced in through the hose and discharged through the air discharge taper hole. At this time, the hose is thin and long and the suction force is increased by the capillary principle Not only does the air discharge more smoothly, Groups it is possible to freely move the suction stage to the desired area in the room, it is possible to discharge the contaminated air remaining good efficiency where desired in every corner of the room to the outside.

1 is a cross-sectional view showing the indoor ventilation device of the non-powered structure according to the present invention installed in the building.
Figure 2 is a plan view for showing the shape of the wind vane of the indoor ventilation device of the non-powered structure according to the present invention.
3 is a view showing an embodiment of the orifice tube 2a of the indoor ventilation device of the non-powered structure according to the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings in order to fully understand the present invention. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. In addition, detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention are omitted.

Hereinafter, with reference to the accompanying drawings illustrating a preferred embodiment of the present invention, the indoor ventilation device of the non-powered structure of the present invention will be described in detail.

1 is a cross-sectional view showing a non-powered indoor ventilator according to the present invention installed in a building, and the entire non-powered indoor ventilator according to the present invention is denoted by reference numeral 1.

The ventilator 1 is provided with a pipe-shaped orifice tube 2 which is longer in length than its diameter, and the orifice tube 2 has a rotating member 3 which projects below the center of the support member 4. It is rotatably supported and coupled by the support member 4 is fixedly installed through the building wall (used by the meaning including the ceiling) (5).

The orifice tube 2 is provided with a hole penetrating in the axial direction, that is, the longitudinal direction. The hole consists of an air intake taper hole 6, an orifice hole 7, and an air discharge taper hole 8. The diameter of the air suction taper hole 6 gradually decreases toward the orifice hole 7 located at the center portion of the inlet port 9 through which air is introduced at the tip of the orifice tube 2. The air discharge taper hole (8) is in direct communication with the air intake taper hole (6), the outlet 10 for discharging air is formed in the rear end of the orifice tube (2) is formed It has a tapered shape in which the diameter gradually increases from the orifice hole 7 toward the rear outlet 10, and the outlet 10 is larger than the diameter of the inlet 9 for smooth discharge of contaminated air. It is preferable to set a larger diameter or to set the taper angle of the air discharge taper hole 8 larger than the taper angle of the air suction taper hole 6.

And the rotation part 3 of the orifice tube body 2 is easily supported by the bearing 11 with respect to the said support member 4, and the clearance of the engagement site | part between both side members 3 and 4 is carried out. The sealing member 12, such as an O-ring or a mechanical seal, is inserted to prevent air from leaking through.

The support member 4 is connected to one end of the flexible contaminated air discharge hose 13, the other end of the hose 13, that is, the free end with the contaminated air inlet 14 is extended to the building (15) (13) has a sufficient length to reach any location in the room, thereby having a capillary effect, and an open / close valve in the middle of the hose (14). 17 is provided, and an air passage 18 is formed in the orifice tube 2 to discharge the contaminated air suctioned from the contaminated air discharge hose 14 through the orifice hole 7, and the contaminated air In order to induce smooth discharge of the air passage 18, the connection portion to the orifice hole 7 is inclined toward the rear side as shown in FIG.

In addition, the wind vane 19, which is shaped like an arrow, is fixedly installed on the upper outer circumference of the orifice tube 2, so that the wind vane 19 is always moved to be in line with the wind direction when the wind is blowing. Is rotated 360 ° along the direction of the wind by the wind vane 19 so that it is always in line with the wind direction, whereby the wind always opens the center holes 6, 7, and 8 of the orifice tube 2 without loss. Pass through.

Although not shown, the middle of the hose 13 can be fixed with a fixed clip (not shown) along the inner wall of the building so as to be neatly arranged.

Figure 3 is a view showing an embodiment of the orifice tube (2a) of the indoor ventilation device of the non-powered structure according to the present invention, the body diameter of the front wind is small and the body diameter of the rear air is large, That is, if the body of the orifice tube body 2a is formed in a tapered shape in the form of a full-width halo, the body itself of the orifice tube body 2a can function as a wind vane without the wind vane 19 so that it can be always aligned in the direction of the wind.

 Hereinafter, the operation of the present invention will be described.

First, the free end of the contaminated air discharge hose 13 is extended to bring the rapid discharge of the contaminated air to a desired position, and then the valve 17 is opened.

At this time, the orifice tube 2 is rotated according to the direction of the wind by the wind vane 19 so that the wind is always aligned with the wind direction so that the wind passes through the center hole without loss. If the flow through the orifice hole (7) is narrowed inflow through the air flow rate is greatly increased, according to the pressure increase in the orifice hole (7) as the Bernoulli, as the pressure drops, the negative pressure is formed, The air in the room under atmospheric pressure is relatively high with respect to the strongly formed negative pressure, so that the polluted air in the room is sucked up into the hose 13 through the polluted air inlet 14 according to the pressure difference between the two, and this pollution Air is forcibly discharged to the outside through the orifice hole (7) and the air discharge taper hole (8).

At this time, if the occupant of the room is reading in the chair in front of the desk, the hose 13 is dragged so that the free end of the long hose 13 is installed near the desk, and the reader breathes while breathing. By quickly discharging muddy air to the outside, indoor occupants can always breathe fresh air and, if the leakage of household cooking gas is a concern, drag the hose 13 and place it on the floor near the gas range. In this case, even if the gas leaks, the gas does not remain on the floor and is immediately discharged to the outside, thereby preventing the gas accident in advance.

As such, the present invention enables the smooth discharge of contaminated air remaining in every corner of the room efficiently by using the air pressure difference due to the venturi structure, the capillary principle of the hose extending long, and the automatic alignment to the direction of the wind. It is also possible to configure a blower fan in the orifice tube body 2 to be ventilated by forced blowing in preparation for when the intensity of the force is small.

The embodiment of the indoor ventilation apparatus of the non-powered structure of the present invention described above is merely exemplary, and those skilled in the art to which the present invention pertains may various modifications and other equivalent embodiments therefrom. You will know well. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

1: ventilator 2: orifice tube
3: rotating part 4: supporting member
5: Wall surface 6: Air suction taper ball
7: Orifice hole 8: Air discharge taper hole
9: inlet 10: outlet
11: Bearing 12: Seal member
13: Polluted air discharge hose 14: Polluted air inlet
15: Building 16: bottom
17: valve 18: air passage
19: Weather vane

Claims (3)

 An orifice tube having a hole communicating in the longitudinal direction of the front and rear, and installed in the outside so as to be rotatable in a 360 ° direction by wind; An air intake taper hole formed with an inlet through which air is introduced at the tip of the orifice tube and gradually decreasing in diameter toward an orifice hole located rearwardly; An air discharge taper hole communicating with the air suction taper hole in a straight line, and having an outlet port through which air is discharged at a rear end of the orifice tube body and gradually increasing in diameter toward the rear from the orifice hole; A wind vane mounted on an upper circumference of the orifice tube to align the orifice tube to match the flow direction of air according to a wind direction; A support member rotatably supporting the orifice tube and fixedly installed on a wall of the building; One end is connected to the support member is connected, the other end having a contaminated air intake port is contaminated air discharge hose extending long toward the floor of the building; And an air passage formed in the orifice tube to discharge the contaminated air suctioned from the contaminated air discharge hose through the orifice hole. The indoor ventilation apparatus according to claim 1, wherein the orifice tube body is rotatably supported with respect to the support member via a bearing. The indoor ventilation apparatus according to claim 1 or 2, wherein a seal member for blocking air leakage is provided at a connection portion between the orifice tube and the support member.

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