KR20190093308A - Overpressure exhaust system for air house - Google Patents

Abstract

The present invention relates to an overpressure exhaust apparatus for an air house which is to be used as a gym or a warehouse or to grow crops or the like, and more specifically, relates to an overpressure exhaust apparatus for an air house, which may be fixated and installed on a wall at the entrance of an air house, comprising: a weight which is replaceable and movable; and an opening/closing door. When the internal air pressure in the air house is excessively high, the opening/closing door automatically opens by the air pressure. When the air pressure is recovered to a normal range, the opening/closing door automatically closes. Since the operation is conducted only through a physical driving means, the overpressure exhaust apparatus is able to open or be sealed purely due to the air pressure regardless of whether the power is supplied or not or whether there is a control means or not, and to have no error or malfunction of the apparatus. Since the overpressure exhaust apparatus automatically operates only when the internal air pressure in the house is excessive, and does not operate at normal pressure, the apparatus does not need to be separately maintained or managed for greater user convenience. In addition, the overpressure exhaust apparatus is able to adjust the opening force of the opening/closing door in accordance with an internal air pressure required by the air house, and thus the apparatus is available for all types of air houses, thereby providing very broad uses.

Description

Overpressure exhaust system for air house

The present invention relates to an air house for cultivating a gymnasium, a warehouse, or a crop, and more particularly, to an air house installed while maintaining a constant air pressure through the operation of an air pump. When excessive air pressure is generated inside the air house due to a failure of the present invention, it is related to an overpressure exhaust device that can automatically adjust the air pressure inside the air house through a mechanical operation structure.

In recent years, the air house is also installed for the purpose of temporary use facilities or gymnasiums, warehouses, cultivation of crops or raising livestock. The air house has a double membrane structure by double inner membrane and outer membrane. One side or both sides of the house is formed with multiple entrances, the outside of the house is provided with air supply means for supplying air between the inner and inner membrane and the outer membrane of the house.

In the case of the air house, the installation cost is relatively inexpensive compared to the existing facilities, and it is very advantageous in terms of maintenance and management of the facility, and it has excellent advantages in terms of insulation and double layer structure. Dismantling or demolition also has a quick and convenient advantage.

Accordingly, in recent years, various forms and structural changes of the air house have been attempted, and the range of use and purpose thereof have evolved in various ways.

That is, in the case of Patent No. 10-1458711, in an air house which is cut off from the outside by a vinyl film and maintains a predetermined air pressure for supporting the shape of the vinyl film therein, the inside of the air house is a high-pressure pump from an external high pressure pump. The horizontal guide tube to which the air is supplied is supported by the support, and is installed at a predetermined height from the ground. The vertical guide tube is connected downward to the horizontal guide tube at a predetermined interval to guide the high pressure air. Soil buried pipe is formed at the lower end of the pipe is extended in the state buried in the soil, the horizontal guide pipe and the vertical guide pipe and the soil buried pipe for improving the environment where a plurality of ejection holes are formed so that the high-pressure air is ejected The air house has been drafted and registered so that the air supplied into the house As to be provided through the buried pipe it is one to improve the aeration and drainage of the soil.

In addition, as shown in Korean Patent No. 10-1473938, air is filled in the tunnel to form a convex upper roof, and air is supplied to the lower outer side of the air roof through the air roof or the air supplied to the upper outer side of the air roof. Air supply means for discharging to the air, the shape holding means for maintaining the shape of the air roof is fixed in a state surrounding the outside of the air roof, and the shape holding means is connected to the upper end is standing on the ground while the top is located at the bottom of the air roof The outer wall having an inner space formed therein, a door formed at one side of the outer wall to open and close the inner space, and a heat storage member provided in the inner space of the air roof to accumulate thermal energy of solar light transmitted from the outside during the day to emit at night It includes, the heat storage member is a heat storage tube standing in the inner space, the heat storage tube is filled by the heat transmitted by the light transmitted from the outside The bottom of the heat material and the heat storage tube is fixed to the top of the variable membrane while the upper end is fixed in the penetrating state, the air flows inside the air house having a flexible tube is stretched and stretched in accordance with the rising and falling of the variable membrane bar have.

In addition, Patent No. 10-1364671 is very easy to install and can minimize the damage of crops due to natural disasters such as storms and heavy snow, and can minimize the heating and cooling costs and maintenance costs, as well as cultivated crops The air green house is disclosed, which can be generally free from the pests, and the air green house can be significantly shortened the construction time, and can greatly reduce the damage of crops caused by natural disasters such as heavy snow and storms. It is possible to greatly reduce heating and cooling costs, and to cultivate organic pesticide-free by cultivating crops free from pests, which not only contributes to increasing farm households' income but also significantly reduces maintenance costs. The green house has been created and registered.

In addition, the inner film that can be formed in a certain room by receiving the air, such as registered Patent No. 10-0480006, and the outer film is installed so as to be spaced apart from the inner film at regular intervals while wrapping the outside of the inner film, the inner A tent formed at equal intervals between the outer and outer films and having a plurality of air rods to maintain a constant interval between the inner and outer films, the tent having first and second entrances formed in duplicate; A weight body installed at the bottom of the tent to fix the inner / outer film; An internal blower provided at one side of the tent and connected to an internal air duct to supply air to the inside of the tent; An external blower provided at one side of the tent and connected to an external air duct to supply air between the inner and outer films; The air house provided on the other side of the tent and composed of an air purifying tank capable of filtering and discharging the air administered inside the tent to the outside has been conceived and registered.

In addition, the first film to form an inner wall, such as Patent No. 10-1539175; A second film spaced apart from the first film by a spacer to cover the first film and form an outer wall; A first blower for supplying air into the first film; And a second blower for supplying air between the first film and the second film, wherein the pressure inside the first film is higher than the pressure between the first film and the second film. It is a bar.

As such, the existing air house has a double membrane structure between the inner membrane and the outer membrane, and has an entrance on one side or both sides, and is provided with an air supply means separately to provide a space between the inner and inner membranes of the house and the outer membrane. As the air is continuously supplied to the air house, the shape of the air house can be maintained due to a constant pressure.

In this case, in the case of the air house, a pressure measuring device for measuring the internal air pressure is generally required, and the shape holding force due to a certain level of air pressure is controlled while controlling the operation of the air supply means according to the measured value of the pressure measuring device. It should be possible to equip it.

However, the air pump in the air discharge means is operated or stopped according to the application of power and the power supply has a structure that is periodically operated according to the pressure measuring device or a set time, the power to the air discharge means If an error or failure occurs in the power system or control means that provides the error, or if the error or failure of the air pump itself occurs, the air pump may ignore the control signal and continue to operate. As the air pressure inside the house is excessively high, there is a problem that the entire air house is deformed, and in severe cases, the air house may be damaged, damaged, or collapsed, and may have a very serious safety accident.

In addition, a measuring device such as a pressure gauge for measuring the internal air pressure of the air house may also be in error or malfunction. In the event of an error or malfunction in the pressure measuring device, a serious safety accident is also expected as described above. There is a need for air pressure regulating means having a more fundamental and safe operation structure.

Republic of Korea Patent Registration 10-1458711 (2014.10.30. Registration) Republic of Korea Patent Registration 10-1473938 (2014.12.11. Registration) Republic of Korea Patent Registration 10-1364671 (2014.02.12. Registration) Republic of Korea Patent Registration 10-0480006 (registered on March 22, 2005) Republic of Korea Patent Registration 10-1539175 (2015.07.17. Registration)

The present invention is to solve the problems as described above, comprising an overpressure exhaust device that can be fixedly installed on the entrance wall of the air house, the overpressure exhaust device having a replaceable and movable weight and opening and closing door, When the internal air pressure of the excessively high, the opening and closing door is automatically opened by the air pressure, and when the air pressure is restored to its normal range, the opening and closing door is automatically configured to close,

Since the opening and closing is performed only by the air pressure, not by the electric device or the electronic control, it can be linked with the air pressure inside the house to perform the mechanical open and close action without errors or malfunctions. And it is an object of the present invention to provide an overpressure exhaust device for an air house to prevent damage.

The present invention for achieving the object as described above, has an exhaust body formed with an exhaust port in the lateral direction, one side of the exhaust port is equipped with an opening and closing door, the upper side of the exhaust body is a support rod connected to the opening and closing door One end of the support rod is fixed to the bending bracket hinged to the upper one side of the exhaust body, and the opening and closing door is mounted to the lower side of the bending bracket, the other side of the support rod by weight Fixed,

The rope is configured to flow through the slit hole formed on the upper side of the exhaust body, and fixed to the exhaust body on the wall of the air house so that the opening and closing door toward the outdoor side according to the air pressure inside the air house according to the opening and closing door Is configured to automatically open and close rotation.

The present invention can be opened or closed purely by the air pressure regardless of whether the power supply or the control means, because the operation is made only through the physical drive means, there is no error or malfunction of the device at all, and the air pressure inside the house It operates automatically only in this excessive state and does not operate at normal pressure, so there is no need for separate maintenance and management, which is very convenient for use, and the opening force of the opening / closing door according to the internal air pressure required by the air house It is very versatile because it can be used for all types of air houses.

1 is an overall view of an air house to which the overpressure exhaust device according to the present invention is applied.
2 is an overall perspective view of an overpressure exhaust device according to the present invention;
3 is an overall cross-sectional view of an overpressure exhaust device according to the present invention.
Figure 4 is an explanatory view of the adjustment action for the overpressure exhaust device according to the present invention
5 is a cross-sectional view illustrating an installation of the overpressure exhaust device according to the present invention.
6 is an operation explanatory diagram of an overpressure exhaust device according to the present invention.
Figure 7 is another embodiment of the overpressure exhaust device according to the present invention

Further objects, features and advantages of the present invention can be more clearly understood from the following detailed description and the accompanying drawings.

Prior to the detailed description of the present invention, the present invention may be variously modified and may have various embodiments, and the examples described below and illustrated in the drawings are intended to limit the present invention to specific embodiments. It is to be understood that the present invention includes all modifications, equivalents, and substitutes included in the spirit and technical scope of the present invention.

Also, when a component is said to be "connected" or "connected" to another component, it may be directly connected or connected to that other component, but other components may be present in the middle. It should be understood that. On the other hand, when a component is said to be "directly connected" or "directly connected" to another component, it should be understood that there is no other component in between.

Then, the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. As used herein, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, action, component, part, or combination thereof described on the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

In addition, the terms "... unit", "... unit", "... module", and the like described in the specification mean a unit for processing at least one function or operation, which means hardware or software or hardware and It can be implemented in a combination of software.

In addition, in the description with reference to the accompanying drawings, the same components regardless of reference numerals will be given the same reference numerals and duplicate description thereof will be omitted. In the following description of the present invention, if it is determined that the detailed description of the related known technology may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall view of an air house to which the overpressure exhaust device according to the present invention is applied, FIG. 2 is an overall perspective view of the overpressure exhaust device according to the present invention, and FIG. 3 is a full sectional view of the overpressure exhaust device according to the present invention; Figure 4 is an explanatory view of the adjustment action for the overpressure exhaust device according to the present invention.

As shown in the figure, the overpressure exhaust device according to the present invention is fixedly installed on the wall 101 on which the door 110 of the air house 100 is installed, and a wall for separating the internal space and the outside of the air house 100. (101) Or a simple installation can be achieved only by fixing the overpressure exhaust device in a state in which the perforations are formed in the wall 101 for separating the space between the inner film and the outer film.

That is, the overpressure exhaust device is composed of an exhaust body 10 made of metal or synthetic resin, and the exhaust body 10 should ideally be designed to have an insertion and fixing operation advantageously to have a square shape in cross section. .

Exhaust port 11 penetrated in the lateral direction is formed in the exhaust body 10, and an opening and closing door 20 is formed at one side of the exhaust body 10, and the opening and closing door 20 is formed by the opening and closing door 20. The exhaust port 11 is blocked.

At this time, a separate bending bracket 40 is hinged to the upper one side of the exhaust body 10, the opening and closing door 20 is fixed to the lower side of the bending bracket 40 and the upper side of the bending bracket 40 As one end of a separate support rod 30 is fixed, the opening and closing door 20 and the support rod 30 is to be able to perform a rotational action with respect to the hinge axis of the bending bracket 40, the opening and closing door ( The opening or closing of the exhaust port 11 is made according to the rotation of 20.

Subsequently, the weight bar 50 is suspended from the support rod 30 through a wire 60, and the wire 60 is exhaust port 11 through a slit hole 12 formed on an upper portion of the exhaust body 10. It is inserted into the inside of the weight 60 is fixed to the lower end of the wire 60 is also located inside the exhaust port (11).

At this time, the load by the downward rotational force of the opening and closing door 20 should be higher than the load of the weight 50 including the support rod 30 and the wire 60, the internal air pressure of the air house 100 In this normal range, the opening and closing of the opening and closing door 20 should not be made.

Particularly, one side of the exhaust body 10, that is, one side of the exhaust port 11 facing in the outdoor direction is formed as an inclined surface 14, and the opening and closing door 20 is in close contact with the inclined surface 14. The opening / closing door 20 can prevent air from flowing out of the air house 100 unnecessarily while maintaining a stable contact with the inclined surface 14 at all times by a load.

In addition, the airtight packing 16 made of a soft elastic material is inserted into the slit hole 12 so that the internal air flows out through the slit hole 12 when the air pressure inside the air house 100 is normal. In the airtight packing 16, the incision line 15 is formed along the longitudinal direction of the slit hole 12, so that insertion and flow of the wire 60 through the incision line 15 are possible. The outflow of air can be minimized.

In addition, the support rod 30 is made of a screw rod having a threaded portion 31, and the separate flow port 32 is screwed to the threaded portion 31, the flow port 32 or the support rod ( As the 30 is rotated, the flow port 32 flows laterally along the threaded portion 31.

Subsequently, the bending bracket 40 connecting the opening / closing door 20 and the supporting rod 30 is hinged to one side of the upper portion of the exhaust body 10 as described above, and these opening and closing doors 20 and the supporting rod 20 are supported. 30 and the bending bracket 40 can be rotated at the same time around the hinge axis point.

In addition, the weight 50 has a weight that the opening and closing door 20 is not rotated open by the load, the weight within the weight range that the opening and closing door 20 is not rotated open. As the replacement 50 is applied to various weights, it is possible to adjust the rotational opening force of the opening / closing door 20.

That is, the rotation opening force of the opening and closing door 20 is changed by varying the position of the flow opening 32 having the weight 50 as shown in FIG. 4 as a means of adjusting the opening and closing force of the opening and closing door 20. Will be able to be variable, as described above by changing the weight of the weight (50) to adjust the rotational opening force of the opening and closing door 20, the weight (50) has a greater range of adjustment force The flow port 32 will be in charge of the relatively precise opening force will be made.

In addition, the support rod 30 is located in the upper portion of the exhaust body 10 to be rotated to form a separate extension portion 13 to the upper side of the exhaust body 10 in the extension portion 13 As the support rod 30 is positioned, even when the exhaust body 10 is fixed to the wall 101, the air inside the air house 100 is prevented from flowing out and the free flow state of the support rod 30 is maintained. Will be done.

Therefore, the exhaust body 10 is fixedly installed on the wall 101 of the air house 100 as shown in FIG. 5, and the opening and closing door 20 is disposed so as to face the outdoor direction of the air house 100. In order to open the door 20 along the exhaust port 11 due to the internal air pressure of the air house 100, the normal air pressure is weaker than the load of the door 20, so It becomes impossible to open and close the door 20.

On the other hand, when the internal air pressure of the air house 100 is unnecessarily high due to abnormal operation of the air supply device 120, the force to push the opening and closing door 20 through the exhaust port 11 will be increased, When the internal pressure of the air pressure rises to a predetermined level, that is, above the air pressure set in the interior of the air house 100 or before the damage of the air house 100 rises, the opening / closing door 20 has the same altitude. Due to the pressure of FIG. 6, the exhaust port 11 is opened while rotating upward as shown in FIG. 6.

At this time, the opening and closing time of the opening and closing door 20 can be variously adjusted according to the position of the flow opening 32 and the weight of the weight 50, the opening and closing door by the air pressure acting on the exhaust opening (11). Rotational opening force of 20 may be appropriately adjusted according to the size or purpose of the air house 100.

Therefore, when the internal air pressure of the air house 100 is excessively increased, the open / close door 20 will rotate open due to the air pressure transmitted to the open / close door 20 through the exhaust port 11, and the open / close door 20 Due to the opening of the air in the high-pressure state through the exhaust port 11 is discharged to the outdoor direction the internal air of the air house 100 will start to drop the pressure.

Subsequently, when the internal air pressure of the air house 100 begins to drop, the pressure pushing the opening / closing door 20 will be weakened, so that the opening / closing door 20 is again rotated downward to block the exhaust port 11. Since the air inside the air house 100 can no longer be discharged, it is to automatically operate only when a certain level or more pressure is formed to maintain the pressure at a set level continuously.

Therefore, the overpressure exhaust device of the present invention is automatically opened and closed by purely air pressure irrespective of electricity and electronics, and thus serves to maintain the air house 100 safely without any error or malfunction of the device.

In addition, in the state in which the overpressure exhaust apparatus of the present invention is fixedly installed on the wall, the movement port 32 or the weight 50 coupled to the support rod 30 will not be easy to move or replace, as shown in FIG. 7 to solve this problem. As it can be used by hanging a separate weight rod 43 on the surface of the opening and closing door 20 exposed to the front as described above, the adjustment for the rotational opening force of the opening and closing door 20 can be easily made even in the state where the overpressure exhaust device is installed. It can be.

That is, a pair of bending piece portions 41 and 41 'are formed on the lower side of the bending bracket 40 to form a close contact with the surface of the opening and closing door 20, and the bending piece portions 41 and 41' As the hook grooves 42 and 42 'are formed at equal intervals, the hook positions with respect to the weight bar 43 can be adjusted using the hook grooves 42 and 42'.

At this time, the weight bar 43 serves to increase the load of the opening and closing door 20, the more the weight bar 43 is located in the lower side of the opening and closing door 20, the farther from the hinge shaft, the opening and closing door Rotational opening force of the 20 will be increased, and since the rotational opening force of the opening / closing door 20 will be relatively reduced as it is positioned above the opening / closing door 20, the plurality of hook grooves 42, 42 ′ By freely adjusting the position of the weight bar 43 through it can vary the load of the opening and closing door 20, the opening and closing door 20 to be opened and closed according to the air pressure inside the air house 100 through the control of such a load. It is possible to adjust the opening point of.

Therefore, the bent piece 41, 41 'and the weight rod 43 is a weight rod 43 in a state in which anyone is easily exposed to the outside even when the exhaust body 10 is installed through the wall of the air house. By adjusting the position, more precise and accurate rotational opening force can be adjusted.

The embodiments described in the present specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, and various equivalents and modifications that may be substituted for them are provided. It should be understood that there may be examples.

10 exhaust body 11: exhaust port
12: slit ball 13: extension
14: inclined surface 15: incision
16: confidential packing
20: opening and closing door
30: support rod 31: screw portion
32: flow port
40: bending bracket 41,41 ': bending portion
42,42 ': Hanger groove 43: Heavy weight rod
50: weight
60: wire
100: air house 101: wall
110: door
120: air supply device

Claims (6)

An exhaust body 10 having an exhaust port 11 formed in a lateral direction, and an opening / closing door 20 is mounted on one side of the exhaust port 11, and a bending bracket 40 is provided on an upper side of the exhaust body 10. By forming a support rod 30 is connected to the opening and closing door 20, one end of the support rod 30 is fixed to the bending bracket 40 hinged to the upper one side of the exhaust body 10, The opening and closing door 20 is mounted to the lower side of the bending bracket 40, and the weight 60 is fixed to the other side of the support bar 30 by the wire 60,
The rope 60 is configured to flow through the slit hole 12 formed on the upper side of the exhaust body 10, the wall 101 of the air house 100 so that the opening and closing door 20 toward the outdoor side. Overpressure exhaust device for an air house, characterized in that configured to be configured to automatically open and close the opening and closing door 20 in accordance with the air pressure inside the air house in accordance with the fixed installation of the exhaust body (10).
The method of claim 1,
An overpressure exhaust for an air house, characterized in that the upper side of the exhaust body 10 is formed with an extension portion 13 having an inner space so that the support rod 30, which is provided in the extension portion 13, is positioned to be movable. Device.
The method of claim 1,
An overpressure exhaust device for an air house, characterized in that an inclined surface (14) is formed at one side of the exhaust port (11) facing the outdoor side so that the opening / closing door (20) adheres on the inclined surface (14) by its own weight.
The method of claim 1,
The support rod 30 is formed with a screw portion 31, the screw portion 31 is screwed to the flow port 32 of the separate provided, the flow hole 32 is connected to a wire 60 having a weight (50) Overpressure exhaust apparatus for an air house, characterized in that configured to be able to move the position of the flow port (32) and weight (50) along the screw portion (31) by the rotation of the flow port (32) as formed.
The method of claim 1,
The airtight packing 16 having an incision line 15 is inserted into the slit hole 12 of the exhaust body 10 so that the wire 60 can flow along the incision line 15. An overpressure exhaust device for an air house.
The method of claim 1,
The bending bracket 40 is provided with bending pieces 41 and 41 'protruding along the outer surface of the opening / closing door 20, and the bending pieces 41 and 41' are provided with equally spaced hook grooves 42 ( 42 ') is repeatedly formed, the air force for the air house, characterized in that the opening and closing force of the opening and closing door 20 is configured to vary according to the position of the weight rod 43 is inserted into the hook groove (42, 42') Overpressure Exhaust System.

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