KR20140110674A - Aeration and water impermeable unit and a device therefor - Google Patents

Abstract

The present invention relates to an aeration and water impermeable unit storing and maintaining an aeration and water impermeable sheet at a unit different from a housing, and provides the aeration and water impermeable unit, made of two rubber parts and the aeration and water impermeable sheet to have a simple structure with enhanced formability and assembling efficiency of the rubber parts and enhanced storage and maintenance efficiency of the aeration and water permeable sheet, and an aeration and water impermeable device using the same unit. The present invention forcefully inserts, stores and maintains the aeration and water impermeable sheet between an external case and an internal case made of rubber. The present invention forcefully inserts the aeration and water impermeable sheet between an internal case side surface of a penetrated thin plate in the external case and an external case side cross section in the internal case, forms a cylindrical surface within a taper, contracting a diameter toward an end opposite of the penetrated thin plate of a cylindrical shape body, on an inner circumference of the cylindrical shape body in the external case, and forms a cylindrical surface outside the taper, having a diameter larger than the cylindrical surface within the taper in the external case in a free state and contracting the diameter by being inserted into the cylindrical surface within the taper, on an outer circumference in the internal case.

Description

[0001] Aeration and water impermeable unit and a device therefor [0002]

The present invention relates to a vent non-permeable unit (assembly) using a vent non-permeable sheet (water repellent non-permeable material) and an air permeable non-permeable unit equipped with the unit.

The permeable non-permeable sheet (membrane member, film member) which permeates air (gas) without permeating the liquid is known as, for example, a PTFE porous membrane. This breathable non-permeable sheet is provided, for example, so as to block the through-hole of the housing forming the boundary of the space requiring the ventilation (laryngeal space) so as to prevent the liquid from entering into the laryngeal space, (See Patent Document 1).

Patent Document 1 proposes a special configuration in the case of fixing the breathable non-permeable sheet to the periphery of the housing through hole. On the other hand, there is also known a vent non-permeable device of a type in which a breathable non-permeable sheet is held in a unit different from the housing, and is attached (detached) to the housing through hole without fixing directly to the periphery of the through hole of the housing.

Patent Document 1: JP-A-2009-78866

The present invention relates to a ventilating non-permeable unit of a type in which a breathable non-permeable sheet is held in a unit different from the housing, comprising two rubber parts and an air permeable non-permeable sheet, Permeable water-repellent unit excellent in the pervious properties of the non-permeable sheet and the breathable non-permeable sheet.

It is another object of the present invention to provide a ventilating non-permeable device that can be easily attached to a housing through-hole in a ventilating non-permeable device using the ventilating non-permeable unit, while achieving sufficient mounting force.

The ventilating non-permeable unit of the present invention stably seals the vent non-permeable sheet between the outer case made of rubber and the inner case, so that the outer case has a perforated top plate portion and a cylindrical portion, And the inner case is formed of a hollow cylindrical body that fits into the cylindrical portion of the outer case, and is formed as a single-sided cross-section on the side of the inner case side of the air release plate portion of the outer case and the side The inner peripheral surface of the tubular portion of the outer case is formed with a cylindrical inner surface having a tapered shape which is reduced in diameter toward the end portion opposite to the fluidized-bed plate portion of the tubular portion. On the outer peripheral surface of the inner case, And a tapered outer cylindrical surface which is larger in diameter than the tapered cylindrical surface of the outer case in a free state and which is fitted to the inner cylindrical surface of the tapered inner peripheral surface is formed do.

It is preferable that the angle formed by the pair of bus bars in the cross section including the axis of the inner cylindrical surface of the taper and the axis of the tapered outer cylindrical surface is 15 to 60 degrees. If the angle exceeds 60 degrees, it is difficult to separate the rubber outer case from the rubber mold. When the angle is less than 15 degrees, the inner case tends to fall off from the outer case. Among them, it is preferable to set the angle of 20 DEG to 50 DEG.

An annular projection is provided in at least one of a face on the inner case side of the oil chamber plate portion of the outer case and a face of the oil chamber plate portion side of the inner case for narrowing the air permeable non- .

The outer circumferential surface of the cylindrical portion of the outer case is provided with an annular holding protruding portion located outside the inner cylindrical surface of the taper. In the through hole of the housing for receiving the outer case (vent non-permeable unit), there is formed a cylindrical surface in the shoe receiving the annular footstep part in a state in which the pierced top plate of the outer case is in contact with the surface of the housing. The diameter of the free state of the annular foot portion is larger than the diameter of the cylindrical surface in the foot portion and is compressed in the mounting state of the vent non-permeable unit to the through-hole to be released.

That is, the present invention provides a vent non-permeable device comprising a casing forming a boundary of the lumbar space and a vent non-permeable unit mounted in a through hole formed in the casing in the state of the vent non-permeable device, Is characterized in that a cylindrical surface in the foot of a smaller diameter than the ring-shaped mounting projection portion in the free state for receiving the ring-shaped footstep portion is formed in a state where the above-mentioned pierced top plate portion of the outer case is in contact with the surface of the housing.

According to the venting non-permeable unit of the present invention, it is possible to provide an air permeable non-permeable unit which is composed of two rubber parts and an air permeable non-permeable sheet and which is simple in structure and excellent in moldability, Can be obtained. According to the present invention, in the ventilating non-permeable device using the venting non-permeable unit, it is possible to obtain a ventilating non-permeable device that can be easily attached to the housing through hole and obtain sufficient mounting force.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a longitudinal sectional view of a decomposition state of an embodiment of an air permeation non-permeable device according to the present invention,
Fig. 2 is a longitudinal sectional view showing a state in which the vent non-permeable unit of the vent non-permeable device of Fig. 1 is assembled, and Fig.
3 is a vertical sectional view showing a state in which the ventilating non-permeable device of FIG. 1 is assembled.

Fig. 1 shows a vent non-permeable device according to the present invention in an exploded state, Fig. 2 shows a vent non-permeable unit (assembly) in an assembled state in Fig. 1, The device is shown in an assembled state.

Fig. 1 shows a ventilation non-permeable unit 10 and a housing 20 forming a boundary between the lumbar space X. Fig. The ventilation non-permeable unit (10) is attached (detached) to the through hole (21) formed in the housing (20). The constituent elements of the ventilation non-permeable unit 10 and the through holes 21 are formed in a rotationally symmetrical shape with the axis O as the center.

The ventilation non-permeable unit 10 includes an outer case 11 and an inner case 12 both made of rubber (for example, fluorine rubber, H · NBR), and an inner case 12 between the outer case 11 and the inner case 12 Permeable non-permeable sheet (film) The outer case 11 has a top plate portion 11b having a vent hole 11a located on the axis O and a cylindrical portion 11c extending from the lower surface of the drawing plate portion 11b on the same axis . The plane (the lower surface in the drawing) on the side of the inner case 12 of the flow-through plate portion 11b is an axially orthogonal plane, and the plane orthogonal to the axis of the inside of the cylindrical portion 11c constitutes the sheet narrowing surface 11b1, ) Constitutes a housing contact surface 11b2.

The inner cylindrical surface of the cylindrical portion 11c is provided with a cylindrical inner cylindrical surface 11c1 on the oiled plate portion 11b side and a cylindrical inner surface 11c2 having a tapered inner diameter that is shrunk smoothly toward the end on the opposite side of the oiled plate portion 11b Is formed. The angle? Forming the pair of bus bars in the cross section including the axis of the inner cylindrical surface of the tapered cylindrical surface 11c2 is in the range of 15 ° to 60 °. An outer circumferential surface of the cylindrical portion 11c is formed with a cylindrical outer cylindrical surface 11c3 corresponding to the formation area of the cylindrical inner circumferential surface 11c1 and an annular outer circumferential ridge 11c4 corresponding to the formation area of the cylindrical inner cylindrical surface 11c2 Is formed.

As described above, the outer case 11, in which the inner circumferential surface of the cylindrical portion 11c is formed with the cylindrical inner circumferential surface 11c2 of the tapered inner circumferential surface 11c2, It is easy to release from the mold member at the time of rubber molding, and there is no fear of rupture.

The inner case 12 is formed of a hollow cylindrical body having a vent hole 12a corresponding to the vent hole 11a of the outer case 11 on the axis O. A plurality of concentric annular projections (V-section projections) 12c are formed in the inner casing 12 at the inner end face (the end face on the side of the convection plate portion 11b of the outer casing 11) have.

The outer circumferential surface of the inner case 12 is formed with a cylindrical outer cylindrical surface 12d corresponding to the cylindrical inner cylindrical surface 11c1 of the outer case 11 and a cylindrical outer cylindrical surface 12d corresponding to the cylindrical inner cylindrical surface 11c2 (12e) is formed. The angle? Forming the pair of bus bars in the cross section including the axis of the tapered outer cylindrical surface 12e is equal to the angle? Of the inner tapered surface 11c2 of the outer case 11 Is set. The outer diameter of the tapered outer cylindrical surface 12e in the free state is set to be slightly larger than the inner diameter of the inner cylindrical surface 11c2 (for example, about 105% to 110%). Is inserted into the cylindrical portion 11c of the outer case 11, the tapered inner cylindrical surface 11c2 receives a compressive force to be enlarged, and the tapered outer cylindrical surface 12e becomes reduced in diameter. On the other hand, the outer diameter of the outer cylindrical surface 12d is the same as or slightly larger than the inner diameter of the inner cylindrical surface 11c1 and the compressive force acting on the inner cylindrical surface 11c1 is larger than the inner diameter of the inner peripheral surface 11c2 Compressive force is less than.

The breathable non-permeable sheet 13 is, for example, a PTFE sheet which is breathable, but is not permeable to water, known as Gore-Tex. The properties (level, performance) of the venting non-pitcher are variously known and selectively used depending on the application.

2 shows a ventilating non-permeable unit 10 in a state where an outer case 11, an inner case 12 and a vent non-permeable sheet 13 are assembled. The outer case 11 and the inner case 12 Has a shape before deformation (free state) in Fig. The overlapped portion shows the deformation zone. The same is true of FIG. In this assembled state, the air permeable non-permeable sheet 13 is stuck between the sheet-stuck face 11b1 of the outer case 11 and the end face 12b (annular protrusion 12c) of the inner case 12, The annular projection 12c is elastically deformed and sees the breathable non-permeable sheet 13. [ The number of the annular projections 12c is three in the illustrated example, but the number and the presence or absence thereof are arbitrary.

2, the tapered inner cylindrical surface 11c is tapered by the tapered outer cylindrical surface 12e to form the inner tapered cylindrical surface 11c2 in the airtight non-permeable unit 10 in the state in which the outer case 11 and the inner case 12 are assembled, The tubular portion 11c is elastically deformed by being pushed outward in the radial direction so that the engagement strength between the outer case 11 and the inner case 12 (taper inner cylindrical surface 11c2 and taper outer cylindrical surface 12e) I think. At this time, the annular mounting projecting portion 11c4 expands its outer diameter in accordance with the deformation of the cylindrical portion 11c. By setting the angle alpha forming the pair of bus bars in the cross section including the axes of the inner cylindrical surface 11c2 of the taper and the outer cylindrical surface 123 to the above range, It is possible to secure the foaming of the outer case 11 and the inner case 12 without deteriorating the releasability from the outer case 11. When the angle? Is less than 15 degrees, the effect of flooring the outer case 11 and the inner case 12 can not be sufficiently obtained. When the angle exceeds 60 degrees, when the outer case 11 is released from the forming die, Of concern. The angle? Is preferably in a range of 20 to 50 degrees.

The through hole 21 of the housing 20 has an inclined inclined surface 21a for avoiding the R portion of the connecting portion between the convection plate portion 11b and the tubular portion 11c of the outer case 11, A cylindrical inner surface 21b corresponding to the cylindrical surface 11c3 and a cylindrical surface 21c having a larger diameter than the inner cylindrical surface 21b are formed. The cylindrical inner surface 21b is slightly larger in diameter than the outer cylindrical surface 11c3 of the outer case 11 in the free state and the cylindrical surface 21c of the outer surface of the cylindrical outer surface 11c It is preferable to make the diameter equal to or slightly smaller than the diameter of the annular mounting projecting portion 11c4 in the free state.

3, when the through hole 21 of the housing 20 is sandwiched between the ventilation non-permeable unit 10 and the outer cylindrical surface 11c3 of the outer case 11, And the position in the through hole 21 of the vent non-permeable unit 10 is determined by the fitting relationship between the outer cylindrical surface 11c3 (annular mounting projecting portion 11c4) and the cylindrical inner surface 21b . At the same time, the annular mounting projection portion 11c4 is elastically deformed in the cylindrical surface 21c in the footing so that the air permeation non-permeable unit 10 from the through-hole 21 is flooded. The annular mounting projection portion 11c4 is located on the side of the cylindrical surface 21b on the side of the diameter slightly larger than the cylindrical surface 21c in the fitting state in the state of fitting to the through hole 21. Therefore, A force is exerted to bring the housing brushed surface 11b2 into close contact with the outer surface 20a of the housing 20.

In the above embodiment, the angle? Between the tapered outer cylindrical surface 12e of the inner case 12 and the taper outer cylindrical surface 12e of the inner case 12, But the angle may be different in the range of the above angle. The outer case 11 and the inner case 12 are made of the same rubber material, but the inner case 12 on the inner side may be made of a material having a rubber hardness higher than the rubber hardness of the outer case 11 The coupling strength between the outer case 11 and the inner case 12 can be increased.

10: Non-permeable unit
11: outer case
11a: Ventilation hole
11b:
11b1: the sheet narrowing face
11b2: Housing single face
11c:
11c1: cylindrical surface in the cannon
11c2: a cylindrical surface in the taper
11c3: Outside diameter cylindrical surface
11c4:
12: inner case
12a ventilation hole
12b: section
12c:
12d: Outside diameter cylindrical surface
12e: Tapered outer cylindrical surface
13: Non permeable sheet
20: Housing
20a: outer surface
21: Through hole
21a:
21b: cylindrical face in the cannon
21c: Cylindrical surface in the foot
O: Axis
X: Lumbar space

Claims (4)

An inner case made of rubber which is made of a rubber cylindrical body which fits into the cylindrical portion of the outer case, a surface of the inner case side of the flow-through plate portion of the outer case, Permeable sheet sandwiched between the end face of the case and the end face of the outer case side of the case,
The inner circumferential surface of the cylindrical portion of the outer case is formed with a tapered inner circumferential surface that is smaller in diameter toward an end opposite to the fluid outlet plate portion of the cylindrical portion. And a tapered outer cylindrical surface which is diametrically opposed to the outer peripheral surface of the tapered outer cylindrical surface and is fitted to the inner cylindrical surface of the tapered inner peripheral surface. The tapered outer cylinder according to claim 1, characterized in that the angle formed between the inner cylindrical surface of the outer case and the inner peripheral surface of the tapered outer cylindrical surface of the inner case is 15 ° to 60 °, Venting non-permeable unit. The ventilating non-permeable unit according to claim 1 or 2, wherein an annular footstep portion is formed on an outer peripheral surface of the cylindrical portion of the outer case, the annular footstep portion being located outside the inner surface of the tapered inner surface. A ventilating non-permeable device having a ventilating non-permeable unit according to claim 3, comprising: a housing having a through-hole forming a boundary of a lumbar space, and the through- Wherein a cylindrical surface in the foot is received which is smaller in diameter than the annular footstep portion in its free state to receive the annular footstep portion.

Images