KR200466484Y1 - Fiber Optic Closure Main Gasket - Google Patents

Abstract

The present invention relates to a main gasket for an optical splice enclosure.

The present invention has a gasket 20 is embedded in the groove of the housing body for this purpose, the gasket is formed with a hole 21 therein, the upper end is formed of a curved portion 22, the upper both sides of the upper rounding part 23 ) Is formed, and both sides of the lower end is formed as a lower rounding part 24.

The present invention configured as described above does not require a strong force when assembling the optical splice enclosure, so that it is possible to waterproof and seal using air pressure, and the maintenance of the optical splice enclosure is convenient by the assembly method with less force. In addition, due to the air pressure generated in the gasket, the circular shape resilience is excellent, so it is more safe for waterproofing and sealing, thereby greatly improving the quality and reliability of the product so that consumers can plant a good image.

Gasket for optical junction box.

Description

Fiber gasket main gasket {Fiber Optic Closure Main Gasket}

The present invention relates to a main gasket for an optical splice enclosure, and more particularly, no strong force is required when assembling the optical splice enclosure, and waterproof and sealing can be performed using air pressure. In this way, the maintenance of the optical junction box is convenient and the circular shape restoring force is excellent by the air pressure generated in the gasket, which is safer for waterproofing and sealing, which greatly improves the quality and reliability of the product, thereby providing consumers with a good image. It will be planted.

As is well known, a gasket is used for preventing leakage of a stop in a sealing device, and is particularly a thin plate packing used to fill a joint of a cylinder or a joint of a pipe.

The above-mentioned gaskets are used in various ways because there are many kinds and uses thereof.

Among them, it is used as a main gasket for an optical junction box and looks at the related arts and is configured as shown in FIGS. 1 (a) to (e).

That is, (a) and (b) of FIG. 1, the gaskets 1a and 1b are inserted into the recesses 11 of the housing body 10, respectively, and the gaskets 1a and 1b are disposed at the lower ends of the corresponding housing lids 12. The projection 13 selectively pressing () is formed.

However, the above-described conventional technology has caused a number of problems as follows.

That is, the lower side of the gasket (1a, 1b) is buried in the groove 11 of the housing body 10, the upper side to the waterproofing and sealing by pressing the gasket with a strong force, but this is of the gasket (1a, 1b) Due to the structure, the problem of waterproofing and sealing by pressing with strong force occurred when assembling the optical junction box.

Therefore, the conventional technology has caused a lot of difficulties in the maintenance of the optical junction box by the assembly method by the strong force.

In addition, waterproof and sealing are possible only when the force distribution is equally distributed to the gaskets 1a and 1b. However, structurally, the equality of the force is not transmitted and when the equality of the force is not transmitted, a great problem arises that the waterproofing and sealing are not performed. It became.

In particular, the conventional technique has a problem in the close waterproof and sealing because the circular restoring force of the shape is somewhat delayed when changing from high temperature and low temperature to room temperature.

In addition, although there are conventional gaskets (1c, 1d) of the shape as shown in Fig. 1 (c) (d), this also caused a number of problems.

That is, Figure 1 (c) is a gasket (1c) used in the airtight container is a general waterproof and sealing is possible, but in a place requiring a constant pressure, such as an optical junction box and a change in temperature, such as high temperature and low temperature There is a big problem that the waterproof and sealing ability is significantly reduced.

In addition, the prior art Figure 1 (d) is a gasket (1d) used for the apparatus, such as pressure cooker, there is a problem that can not normally be waterproofed and sealed, and the conventional technique used when the pressure is generated inside the apparatus The problem arises that the gasket is not bonded to be used in the optical junction box.

In addition, Figure 1 (e) of the prior art has a number of problems as follows.

That is, the gasket 1e embedded in the housing body 10 maintains airtightness while selectively pressing the protrusion 13 protruding from the lower end of the housing lid 12, and the gasket 1e is gradually transferred in the process of transferring the load. ) Has a large problem that the gap is generated by leaking into the inside of the arrow in the direction of the arrow by the two hollow parts.

The present invention has been made to solve the above problems of the prior art, the main gasket for the optical connection enclosure having a hole in the inside and a curved portion at the top and the upper rounding part on the both sides and the lower rounding on both sides The second purpose is to bury the lower side of the gasket body on the lower side of the housing body, and strong force is required when assembling the optical junction box by waterproofing and sealing by pressing the gasket from the upper side with less force. The third purpose is to enable waterproofing and sealing by using the air pressure generated in the gasket when the gasket is pushed from the upper side, and the fourth purpose is to maintain the optical junction box by the assembly method using less force. The fifth purpose is to recover the circular shape by the air pressure generated in the gasket when changing from high temperature and low temperature to room temperature. Will have the ability to further secure a solid and watertight seals, a sixth objective is thereby significantly improve the quality and reliability of our products to provide the main gaskets allow the consumer to make an optical connection can instill good image housing.

In order to achieve the above object, the present invention has a gasket embedded in the main gasket of the optical splice enclosure, wherein the gasket is formed with a hole therein, and an upper end is formed with a curved portion, and both upper ends are upper round parts. It is formed, and both sides of the lower end provides a main gasket for an optical junction box, characterized in that formed in the lower rounding.

As described in detail above, the present invention is to provide a main gasket for an optical connection enclosure having a hole inside and a curved portion at the top and an upper rounding part at both sides and a lower rounding part at both sides of the bottom.

In addition, the present invention is to ensure that the lower side of the gasket is buried in the lower side of the housing body and the strong pressure is not required when assembling the optical connection enclosure in a manner that the upper side to the gasket with a small force to waterproof and seal.

And the present invention is to enable the waterproof and sealing by using the air pressure generated in the gasket when the gasket is pressed from the upper side.

In addition, the present invention is to facilitate the maintenance of the optical junction box by the assembly method with a small force.

In addition, the present invention is excellent in circular shape restoring force by the air pressure generated in the gasket when changing from high temperature and low temperature to room temperature to make it more safe for waterproofing and sealing.

The present invention is a very useful design that can significantly improve the quality and reliability of the product due to the above-described effect so that consumers can plant a good image.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention for achieving this effect are as follows.

The main gasket for the optical connection enclosure applied to the present invention is configured as shown in FIGS. 2 to 5.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

First, the present invention has the following technical features in the main gasket of the optical connection enclosure.

That is, as shown in FIG. 2, the gasket 20 is embedded in the groove 11 of the housing body 10, and at this time, both sides of the groove 11 are recessed to be filled when the gasket 20 is opened. This is preferred.

In addition, the gasket 20 applied to the present invention is formed with a circular hole 21 therein, the air pressure to be described later is injected into the hole 21.

And the upper end of the gasket 20 applied to the present invention is formed with a curved portion 22 so that the projection 13 is pressed.

In addition, both sides of the upper end of the gasket 20 applied to the present invention is formed of the upper rounding part 23.

In addition, both sides of the lower end of the gasket 20 applied to the present invention is formed as a lower rounding part 24.

In addition, the width and height of the gasket 20 applied to the present invention is 6mm and 7.5mm, respectively, and when the diameter of the hole 21 is 3.5mm, the center of the hole 21 is preferably formed at a height of 4.25mm from the bottom Do.

In addition, when the width and height of the gasket 20 applied to the present invention are 6mm and 7.5mm, respectively, and the diameter of the hole 21 is 3mm, the center of the hole 21 is preferably formed at a height of 3.75mm from the bottom. .

In addition, when the width and height of the gasket 20 applied to the present invention are 6 mm and 7.5 mm, respectively, and the diameter of the hole 21 is 3.5 mm, the center of the hole is preferably formed at a height of 3.75 mm from the bottom.

The limitation of the above-described dimensions is dependent on the height and diameter of the hole 21, which is the result of the applicant obtaining the best value as a result of the repeated experiments. It is desirable to list the limit)

In addition, when the load is gradually transferred to the upper both sides of the gasket 20 applied to the present invention is formed a projection 25 to maintain the airtight while wrapping the projection (13).

Finally, the inside of the hole 21 applied to the present invention is preferably filled with air pressure of 70 to 80%, in particular the air pressure can be added or subtracted as necessary.

Meanwhile, the present invention may be variously modified and may take various forms in applying the above components.

And it is to be understood that the present invention is not limited to the specific forms mentioned in the above description, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood that.

Referring to the operation and effect of the main gasket for the optical connection enclosure of the present invention configured as described above are as follows.

First of all, the present invention does not require strong force when assembling the optical splice enclosure, so that it can be waterproofed and sealed using air pressure, and the maintenance of the optical splice enclosure is convenient due to the assembly method with low force. Due to the air pressure generated in the gasket 20, the circular shape restoring force is excellent, and thus it is more safe for waterproofing and sealing.

Referring to the more specific effects of the present invention is as follows.

That is, when the gasket 20 as shown in Figs. 2 and 3 is embedded in the groove 11 of the housing body 11, it is as shown in the first picture of Fig.

In the above state, when the housing lid 12 is lowered and the projection 13 presses the upper end of the gasket 20, the curved portion 22 is pressed, as shown in FIG. 4. In this state, the hole 21 is slightly pressed to form an oval shape.

When the housing lid 12 is further lowered in the above state, as shown in the third figure of FIG. 4, the gasket 20 is pressed downwards while the hole 21 is compressed into an elliptical shape and both sides are opened to both sides.

In addition, when the housing lid 12 is further lowered in the above state, as shown in the last figure of FIG. 4, the upper portion of the gasket 20 is further compressed while the holes 21 are compressed and both sides are further opened to both sides, and the groove 11 is formed. The airtightness is maintained while being in close contact with the recessed grooves on both side walls of the wall.

In the present invention, since the inside of the hole 21 is filled with air pressure of 70 to 80%, when the physical force is applied to the outside of the gasket 20, the present invention is pressed slightly. When the filled air pressure acts to a certain degree or more, the hole 21 is prevented from being pressed any more, which is caused by the air pressure acting in all directions in the direction of the arrow of FIG. 4 so that the hole 21 is opened to the outside and this force is Excellent resilience of the circular shape provides an effect of improving the safety to waterproof and sealing.

In addition, the present design provides an effect that the upper and lower rounding parts 23 and 24 may induce deformation while maintaining the overall shape of the gasket 20.

In addition, the present invention is provided with the projections 25 on both sides of the upper end of the gasket 20, which is the projection 13 is finally lowered to press the curved portion 22, the projections 25 spread outwards the projections 13 The bottom of the) is to keep more confidential.

In addition, the present invention is formed in the width and height of the gasket 20 is 6mm and 7.5mm, respectively, when the diameter of the hole 21 is 3.5mm, the center of the hole 21 is formed at a height of 4.25mm from the bottom Also, when the diameter of the hole 21 is 3mm, the center of the hole 21 is formed at a height of 3.75mm from the bottom, and if the diameter of the hole 21 is 3.5mm, the center of the hole is 3.75mm from the bottom Formed at height, such a limiting of dimensions maintains tight air tightness at the best value set by the relationship between waterproofing, sealing and air pressure.

The technical idea of the main gasket for the optical connection enclosure of the present invention is actually capable of repeating the same result, and in particular, by implementing the present application, it is possible to promote the technological development and contribute to the industrial development, which is worth protecting.

1 (a) is a configuration diagram showing a gasket of the first embodiment,

        (b) is a block diagram showing a gasket according to the second embodiment of the prior art,

        (c) is a block diagram showing a gasket according to the third embodiment of the prior art,

        (e) is a block diagram showing the gasket of the conventional fourth embodiment.

2 is a cross-sectional view of a main gasket for an optical splice enclosure according to the present invention.

Figure 3 shows a state in which the gasket applied to the present invention is coupled to the housing body

        Sun perspective view.

Figure 4 is the main gasket for the optical junction box applied to the present invention is gradually pressed

        Figure showing the state.

5 is a cross-sectional view of another embodiment of a main gasket for an optical splice enclosure according to the present invention.

        Degree.

<Explanation of symbols for the main parts of the drawings>

10: housing body 12: housing lid

20: gasket 21: hole

Claims (6)

delete delete delete delete A gasket is embedded in the groove of the housing body, wherein the gasket has a hole formed therein, an upper end is formed with a curved portion, both upper ends are formed with an upper rounding part, and both lower ends are formed in the main gasket for an optical connection enclosure formed with a lower rounding part. In The main gasket for the optical connection enclosure, characterized in that the protrusions 25 are further formed on both sides of the upper end of the gasket 20 to keep the airtight while maintaining the air tightness when the load is gradually transferred. The method according to claim 5, The inside of the hole (21) is a main gasket for an optical junction box, characterized in that the filling of the air pressure of 70 to 80%.

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