KR20140003057A - Pneumatic shilling device - Google Patents

Abstract

The present invention relates to an air sealing device. The air sealing device improves sealing efficiency by preventing outdoor air from flowing indoors and extends life span by improving durability on air pressure. The air sealing device includes an expansion unit (10) and a sealing unit (20).

Description

Air Seal Device {PNEUMATIC SHILLING DEVICE}

The present invention relates to an air sealing device, which can more easily prevent outdoor air from flowing into the room, which is excellent in sealing efficiency and also greatly improves durability against air pressure, thereby extending its lifespan.

In general, the sealing device is widely used to prevent the outdoor air from entering the room, in particular, the pneumatic sealing device is expanded by the air pressure supplied to the inside in the state installed on the object including the door requiring the sealing, etc. It is in close contact with the wall located around the pneumatic sealing device.

However, such a pneumatic sealing device is not only low sealing efficiency with the wall surface, but also has a problem of short life due to weak durability against the air pressure supplied to the inside.

The present invention has been created to solve the above-mentioned problems, it is possible to more easily prevent the outdoor air flow into the room is not only excellent sealing efficiency but also greatly improve the durability against air pressure to extend the life It is an object of the present invention to provide an air seal.

The present invention for achieving the above object and the expansion portion is formed a space filled with air therein; It is formed on top of the expansion portion, due to the pressure of the air filled in the expansion portion due to the airtight portion moving in the upper direction of the expansion portion; provides an air sealing device comprising a.

Here, a sharpening member having a triangular cross-sectional shape protruding in the upper direction of the hermetic portion on the upper surface of the hermetic portion; Protruding member is formed in a semi-circular cross-sectional shape protruding in the upper direction of the hermetic portion; It is preferable that they are repeatedly formed at regular intervals alternately.

Alternatively, it is preferable that a sharp member having a cross-sectional shape protruding in the upper direction of the hermetic part in a right triangle shape is formed at a predetermined interval on the upper surface of the hermetic part.

Or a groove having a triangular cross-sectional shape which is recessed to a predetermined depth in the lower direction of the hermetic portion on the upper surface of the hermetic portion; It is preferable that the sharpening member is formed in a triangular cross-sectional shape projecting in the upper direction of the airtight portion so as to be located between the grooves.

The expansion portion and the hermetic portion are each made of a rubber material, and the expansion portion includes a lower plate; An upper plate formed in an upper direction of the lower plate and having the airtight portion formed thereon; And a connecting plate comprising a front connecting plate formed between the front side of the lower plate and the front side of the upper plate, and a rear connecting plate formed between the rear side of the lower plate and the front side of the upper plate. It is preferable that the reinforcing cloth of fabric material is provided in the inside of the upper plate and the connecting plate.

Further, the hermetic portion is an upper airtight portion formed in the upper direction of the expansion portion; And a plurality of lower hermetic portions sequentially stacked in the vertical direction between the upper hermetic portion and the upper portion of the inflation portion, wherein an insertion groove is formed in each of the upper portion of the expansion portion and the upper portion of the lower hermetic portion, and the upper portion It is preferable that an insertion protrusion is formed in a shape corresponding to the insertion groove in the lower portion of the airtight portion and the lower portion of the lower hermetic portion, respectively.

In addition, fitting grooves are formed in the lower central part of the upper hermetic part and the lower central parts of the plurality of lower hermetic parts, respectively, and are formed in shapes corresponding to the fitting grooves in the upper central part of the expansion part and the upper central parts of the plurality of lower hermetic parts, respectively. It is preferable that the fitting projection is inserted into the fitting groove is formed.

The present invention more easily prevents the outdoor air from flowing into the room through an airtight part which is moved upward in the upward direction by the pressure of the air filled in the expansion part and is in close contact with the wall located around the expansion part. Since the sealing efficiency is very excellent, as well as the reinforcing cloth of the fabric material provided in the inside of the lower plate, the inside of the upper plate and the connecting plate of the expansion portion, the hardness of the expansion portion is relatively stronger than the airtight portion. Accordingly, the durability against the air pressure of the expansion portion is also greatly improved, and thus the life of the expansion portion can be extended.

1 is a cross-sectional view schematically showing an air sealing device as a first embodiment of the present invention;
FIG. 2 is a cross-sectional view schematically illustrating an air supply unit supplying air into the expansion unit of FIG. 1.
3 and 4 are cross-sectional views schematically showing the process of lifting the airtight portion of FIG.
5 is a cross-sectional view schematically showing an air sealing apparatus according to a second embodiment of the present invention.
6 and 7 are cross-sectional views schematically illustrating a process of raising the airtight portion of FIG. 5;
8 is a cross-sectional view schematically showing an air seal apparatus as a third embodiment of the present invention;
9 and 10 are cross-sectional views schematically illustrating a process of raising the airtight portion of FIG. 8;
11 to 13 are cross-sectional views schematically showing a reinforcement cloth,
14 is an exploded cross-sectional view schematically showing an air sealing apparatus as a fourth embodiment of the present invention;
FIG. 15 is a cross sectional view of FIG. 14;
16 is an exploded cross-sectional view schematically showing an air sealing device as a fifth embodiment of the present invention;
17 is a cross-sectional view of the combination of FIG.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. It is to be understood that the scope of the present invention is not limited to the following embodiments, and various modifications may be made by those skilled in the art without departing from the technical scope of the present invention.

The air seal device 1 of the present invention is, for example, the upper outer peripheral surface of the object (7 of FIG. 3) requiring a sealing including a screen door and the like provided inside the door frame (5 of FIG. 3) mounted on the wall of the building, A lower outer circumferential surface, one outer circumferential surface and the other outer circumferential surface is provided on the object 7 can be in close contact with the inner circumferential surface of the door frame (5).

The upper outer circumferential surface, the lower outer circumferential surface, the one outer circumferential surface and the other outer circumferential surface of the object 7 requiring the sealing may be formed with recesses 710 of FIG. 3 recessed to a predetermined depth inside the object 7, respectively. The air sealing device 1 may surround the upper outer circumferential surface, the lower outer circumferential surface, the one outer circumferential surface, and the other outer circumferential surface of the object 7 in a state accommodated in the groove 710 of the object 7.

1 is a cross-sectional view schematically showing an air sealing device 1 as a first embodiment of the present invention.

As shown in FIG. 1, the air sealing device 1, which is the first embodiment of the present invention, includes an expansion part 10 and an airtight part 20.

First, the expansion portion 10 and the airtight portion 20 may be made of a rubber material.

As shown in FIG. 2, the expansion part 10 may be composed of a lower plate 110, an upper plate 120, and a connecting plate 130.

The lower plate 110 may be horizontally extended to a predetermined length in the front-rear direction.

The upper plate 120 may be formed in an upper direction of the lower plate 110.

The upper plate 120 may also be horizontally extended to a predetermined length in the front-rear direction.

The connection plate 130 may be composed of a front connection plate 131 and a rear connection plate 132.

The front connection plate 131 may be integrally formed between the front side of the lower plate 110 and the front side of the upper plate 120.

The rear connection plate 132 may be integrally formed between the rear side of the lower plate 110 and the rear side of the upper plate 120.

Space (S) filled with air inside the expansion part 10 to be located between the lower plate 110 and the upper plate 120 and between the front connecting plate 131 and the rear connecting plate 132. Is formed.

The airtight part 20 is integrally vertically formed at the center of the upper surface of the upper plate 120 of the expansion part 10.

2 is a cross-sectional view schematically illustrating an air supply unit 80 supplying air into the expansion unit 10 of FIG. 1, and FIGS. 3 and 4 schematically illustrate a process of raising the airtight unit 20 of FIG. 1. It is sectional drawing to show.

As shown in FIGS. 1 and 2, an air supply pipe 70 communicating with a space S formed in the expansion part 10 may be vertically formed at the center of the lower plate 110 of the expansion part 10. Can be.

As shown in FIG. 2, an air supply unit 80 including an air compressor for supplying air to the space S formed in the expansion part 10 through the air supply pipe 70 may be provided.

Connection line 90 including a connection hose or connecting pipe for connecting the air supply pipe 70 and the air supply unit 80 may be provided.

The front and rear ends of the connection line 90 may be respectively hermetically connected to the lower side of the air supply pipe 70 and the front side of the air supply unit 80.

The rear side of the connection line 90 may be provided with an opening and closing valve 810 for opening and closing the connection line 90.

By the operator's operation, the open / close valve 810 may manually open and close the connection line 90.

Alternatively, the open / close valve 810 may be formed of an electronic solenoid valve that automatically opens and closes the connection line 90 under the control of a controller (not shown).

The airtight part 80 is supplied by the air supply unit 80 to the space S formed in the expansion part 10 through the connection line 90 and the air supply pipe 70. 20 and 3 are close to the inner circumferential surface of the door frame 5 mounted on the wall of the building by moving up and down in the upward direction of the expansion part 10, as shown in FIGS. The gap 9 formed between the outer circumferential surfaces of the object 7 requiring the sealing including the screen door and the like is sealed.

On the other hand, the front end portion of the connection line 90 connected to the lower side of the air supply pipe 70 is introduced into the object 7 in a predetermined length in the state passing through the object 7 requiring the sealing including a screen door or the like. Can be.

Next, as shown in FIGS. 1 to 3, the sharpening member 210 and the protruding member 220 may be alternately formed at regular intervals on the upper surface of the airtight portion 20.

The sharpening member 210 may protrude in an upper direction of the hermetic portion 20 on the front side, the upper side middle portion, and the rear side of the upper surface of the hermetic portion 20, respectively.

The inclined surface 211 which is inclined downward in the front direction and the rear direction of the sharp member 210 toward the lower side from the upper side and the lower side of the sharp member 210, respectively, on the front side and the rear side of the sharp member 210 is formed; The sharpening member 210 may be formed in a triangular cross-sectional shape.

The protrusion member 220 may protrude in an upward direction of the airtight part 20.

The protrusion member 220 may be formed in a semicircular cross-sectional shape.

The protruding member 220 may be formed at the front side and the rear side of the upper surface of the hermetic part 20 so as to be located between the sharpening members 210.

The airtight part 80 is supplied by the air supply unit 80 to the space S formed in the expansion part 10 through the connection line 90 and the air supply pipe 70. When 20) moves up and down in the upward direction of the expansion portion 10,

The upper side of the sharpening member 210 having a sharp upper side is more closely adhered to the inner circumferential surface of the door frame 5 mounted on the wall of the building, and the upper side of the protruding member 220 having a semicircular cross section is formed. As a close contact with the inner peripheral surface of the door frame 5 mounted on the wall of the building in a wider area, a gap formed between the inner peripheral surface of the door frame 5 and the outer peripheral surface of the object 7 requiring sealing including a door ( The sealing treatment efficiency of 9) can be further improved.

FIG. 5 is a cross-sectional view schematically illustrating an air sealing apparatus 1 according to a second embodiment of the present invention, and FIGS. 6 and 7 are cross-sectional views schematically illustrating a lifting process of the airtight part 20 of FIG. 5.

Air seal device 1 of the second embodiment of the present invention is configured in the same manner as the first embodiment,

5 to 7, the upper surface of the hermetic part 20 is formed with a sharp member 230 having a cross-sectional shape projecting in the upper direction of the hermetic part 20 in a right triangle shape at regular intervals. Can be.

Particularly, in order to block the outdoor air located in the front direction of the expansion part 10 from entering the room located in the rear direction of the expansion part 10 with a higher right triangle shape, An inclined surface 231 which is inclined downward in the front direction of the sharpening member 230 may be formed on the upper surface of the sharpening member 230 from the upper side of the sharpening member 230 toward the lower side of the sharpening member 230. have.

8 is a cross-sectional view schematically showing an air sealing device 1 as a third embodiment of the present invention, and FIGS. 9 and 10 are cross-sectional views schematically showing a process of raising the airtight portion 20 of FIG.

Air seal device 1 of the third embodiment of the present invention is configured in the same manner as the first embodiment,

8 to 10, the upper surface of the hermetic portion 20 has a groove 280 formed in a triangular cross-sectional shape which is recessed to a predetermined depth in the lower direction of the hermetic portion 20; A sharp member 290, which is formed in a triangular cross-sectional shape protruding in the upper direction of the airtight portion 20 so as to be located between the grooves 280; may be formed at regular intervals.

11 to 13 are cross-sectional views schematically showing the reinforcement cloth 30.

Next, the inside of the lower plate 110, the inside of the upper plate 120 and the inside of the connecting plate 130, as shown in Figures 11 to 13, having a plain material, knitted fabric, nylon fabric , Reinforcing fabric 30 of the fabric material, including a mesh-like fabric may be provided.

The reinforcement cloth 30 may be composed of a lower reinforcement cloth 310, a front reinforcement cloth 320, a rear reinforcement cloth 330 and an upper reinforcement cloth 340.

The lower reinforcement cloth 310 may be horizontally provided in the lower plate 110.

The front reinforcement cloth 320 may be vertically provided inside the front connection plate 131.

The lower side of the front reinforcement cloth 320 may be integrally connected to the front side of the lower reinforcement cloth (310).

The rear reinforcement cloth 330 may be vertically provided inside the rear connection plate 132.

The lower side of the rear reinforcement cloth 330 may be integrally connected to the rear side of the lower reinforcement cloth 310.

The upper reinforcement cloth 340 may be horizontally provided inside the upper plate 120.

The front side of the upper reinforcement cloth 340 may be integrally connected with the upper side of the front reinforcement cloth (320).

The rear side of the upper reinforcement cloth 340 may be integrally connected with the upper side of the rear reinforcement cloth 330.

Due to the reinforcing fabric 30 of the fabric material provided in the interior of the lower plate 110, the upper plate 120 and the connecting plate 130 of the expansion portion 10 to the airtight portion 20 As the hardness of the expansion part 10 becomes relatively strong, durability of the air pressure of the expansion part 10 is also greatly improved, so that the life of the expansion part 10 can be extended.

FIG. 14 is an exploded cross-sectional view schematically showing an air sealing device 1 as a fourth embodiment of the present invention, and FIG. 15 is a cross-sectional view of the combination of FIG.

Next, the air seal device 1 of the fourth embodiment of the present invention is configured in the same manner as the first embodiment, the second embodiment, or the third embodiment,

A gap formed between the outer circumferential surface of the object 7 requiring the replacement and repair of the portion corresponding to the damaged portion when the airtight portion 20 is damaged and the sealing including the door and the inner frame of the door frame 5 more easily ( In order to more easily adjust the vertical height of the airtight portion 20 according to the vertical gap of 9),

As shown in FIGS. 14 and 15, the airtight part 20 may be composed of an upper hermetic part 240 and a plurality of lower hermetic parts 250.

The upper hermetic part 240 may be horizontal in the upper direction of the upper plate 120 of the expansion part 10.

On the upper surface of the upper hermetic part 240, the sharpening member 210 and the protruding member 220 of the first embodiment are repeatedly formed at alternating intervals, or the sharpening member 230 of the second embodiment has a predetermined interval. It can be formed as.

The plurality of lower hermetic portions 250 may be sequentially stacked horizontally in the vertical direction between the upper hermetic portion 240 and the upper plate 120 of the expansion portion 10.

In FIGS. 14 and 15, two lower hermetic portions 250 are provided between the upper hermetic portion 240 and the upper plate 120 of the expansion portion 10, but are not necessarily limited thereto. Of course, two or more of the lower hermetic portions 250 may be provided between the upper hermetic portion 240 and the upper plate 120 of the expansion portion 10.

However, in the present invention, it is assumed that two lower hermetic portions 250 are provided between the upper hermetic portion 240 and the upper plate 120 of the expansion portion 10, and the two lower hermetic portions are provided. A first lower hermetic portion 251 horizontally seated on the upper surface of the upper plate 120 of the expansion portion 10; A second lower hermetic part 252 which is horizontally seated on the upper surface of the first lower hermetic part 251 will be referred to as.

Inserting grooves 260, such as the 'T' shape, which is recessed to a predetermined depth in the lower direction of the upper plate 120 may be formed at a predetermined interval on the upper surface of the upper plate 120 of the expansion portion 10. .

The upper surface of the first lower hermetic portion 251 and the upper surface of the second lower hermetic portion 252 are recessed to a predetermined depth in the lower direction of the first lower hermetic portion 251 and the second lower hermetic portion. The insertion groove 260, such as a 'T' shape, which is recessed to a predetermined depth in the lower direction of the 252 may be formed at a predetermined interval.

The lower surface of the upper hermetic portion 240 is formed in a 'T' shape so as to correspond to the insertion groove 260 of the second lower hermetic portion 252, the insertion groove 260 of the second lower hermetic portion 252. Insertion protrusion 270 that is fixed to the sliding insertion in the left and right direction may be formed to protrude at a predetermined interval in the lower direction of the upper hermetic portion 240.

The lower surface of the second lower hermetic portion 252 is formed in a 'T' shape so as to correspond to the insertion groove 260 of the first lower hermetic portion 241 is the insertion groove of the first lower hermetic portion 241. The insertion protrusion 270 slidingly inserted and fixed in the left and right directions in the 260 may protrude in a downward direction of the second lower hermetic part 252.

The lower surface of the first lower hermetic portion 251 is formed in a 'T' shape so as to correspond to the insertion groove 260 of the upper plate 120 of the expansion portion 10 is the insertion groove of the upper plate 120 The insertion protrusion 270 slidingly inserted into and fixed in the left and right directions in the 260 may protrude in a lower direction of the first lower hermetic part 251.

FIG. 16 is an exploded cross-sectional view schematically showing an air sealing apparatus 1 as a fifth embodiment of the present invention, and FIG.

Next, in order to block the outdoor air located in the forward direction of the expansion unit 10 to the room located in the rear direction of the expansion unit 10 with a higher efficiency,

As shown in FIGS. 16 and 17, a semicircular fitting groove 40 recessed to a predetermined depth in an upper direction of the upper hermetic part 240 may be formed at the center of the lower surface of the upper hermetic part 240.

In addition, a semicircular fitting groove 40 recessed to a predetermined depth in the upper direction of the second lower hermetic portion 252 may also be formed at the center of the lower surface of the second lower hermetic portion 252.

In addition, a semicircular fitting groove 40 recessed to a predetermined depth in an upper direction of the first lower hermetic part 251 may also be formed at the center of the lower surface of the first lower hermetic part 251.

In addition, the upper surface central portion of the upper plate 120 of the expansion part 10 protrudes in the upper direction of the upper plate 120 to be inserted into the fitting groove 40 of the first lower hermetic part 251. A semicircular fitting protrusion 50 having a shape corresponding to the fitting groove 40 may be formed.

In addition, the upper lower center portion of the first lower hermetic portion 251 protrudes toward the upper direction of the first lower hermetic portion 251 and is inserted into and fixed in the fitting groove 40 of the second lower hermetic portion 252. The fitting protrusion 50 of a semicircular shape having a shape corresponding to the fitting groove 40 may be formed.

In addition, the fitting which protrudes in the upper direction of the second lower hermetic part 252 to the center of the upper surface of the second lower hermetic part 252 is inserted into the fitting groove 40 of the upper hermetic part 240. The fitting protrusion 50 of a semicircular shape having a shape corresponding to the groove 40 may be formed.

The present invention configured as described above is mounted on a wall located around the expansion part 10 by moving upward and downward in the upward direction of the expansion part 10 by the pressure of air filled in the expansion part 10. Through the airtight portion 20 which is in close contact with the inner circumferential surface of the door frame 5, the outdoor air can be more easily prevented from entering the room, so the sealing efficiency is very excellent, as well as the lower plate of the expansion portion 10. Due to the reinforcing cloth 30 of the fabric material provided in the interior of the interior 110, the upper plate 120 and the connecting plate 130 of the expansion portion 10 of the airtight portion 20 As hardness becomes relatively strong, durability against air pressure of the expansion part 10 is also greatly improved, and thus, the life of the expansion part 10 may be extended.

10; Inflation section 20; Confidentiality.

Claims (7)

An expansion part 10 in which a space S filled with air is formed;
And an airtight part 20 formed on the expansion part 10 and floating in the upper direction of the expansion part 10 due to the pressure of air filled in the expansion part 10. Air seal device, characterized in that made.
The method of claim 1,
A sharp member 210 formed on the upper surface of the hermetic portion 20 in a cross-sectional shape protruding in the upper direction of the hermetic portion 20 into a triangular shape; Protruding member 220 is formed in a semi-circular cross-sectional shape protruding in the upper direction of the airtight portion 20; Air sealing device characterized in that it is repeatedly formed at regular intervals alternately.
The method of claim 1,
Air seal device, characterized in that the upper surface of the airtight portion (20) is formed at regular intervals with a sharp member 230, the cross-sectional shape projecting in the upper direction of the airtight portion (20) is formed in a right triangle.
The method of claim 1,
A groove 280 having a triangular cross-sectional shape recessed to a predetermined depth in a lower direction of the hermetic portion 20 on an upper surface of the hermetic portion 20; And a sharp member 290 having a triangular cross-sectional shape protruding upward in the airtight portion 20 so as to be located between the grooves 280.
The method of claim 1,
The expansion portion 10 and the airtight portion 20 are each made of a rubber material,
The expansion part 10 and the lower plate 110;
An upper plate 120 formed in an upper direction of the lower plate 110 and having the airtight portion 20 formed thereon;
The front side connecting plate 131 formed between the front side of the lower plate 110 and the front side of the upper plate 120, and the rear side connection formed between the rear side of the lower plate 110 and the front side of the upper plate 120. Consisting plate 130, consisting of a plate 132;
Air seal device, characterized in that the reinforcing fabric (30) of the fabric material is provided in the interior of the lower plate (110), the inside of the upper plate (120) and the connecting plate (130).
The method of claim 1,
The airtight part 20 includes an upper airtight part 240 formed in an upper direction of the expansion part 10;
And a plurality of lower hermetic portions 250 sequentially stacked in the vertical direction between the upper hermetic portion 240 and the upper portion of the expansion portion 10.
Insertion grooves 260 are formed in the upper portion of the expansion portion 10 and the upper portion of the plurality of lower hermetic portions 250, respectively.
Insertion protrusions 270 formed in a shape corresponding to the insertion groove 260 in the lower portion of the upper hermetic portion 240 and the lower portion of the lower hermetic portion 250 are fixed in the insertion groove 260, respectively. Air seal device, characterized in that is formed.
The method according to claim 6,
Fitting grooves 40 are formed in the lower center of the upper hermetic part 240 and the lower centers of the plurality of lower hermetic parts 250, respectively.
The fitting protrusions are formed in a shape corresponding to the fitting groove 40 in the upper center portion of the expansion portion 10 and the upper central portion of the plurality of lower hermetic portions 250, respectively, and are inserted and fixed in the fitting groove 40. Air seal device, characterized in that 50) is formed.

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