KR20100046548A - Hybrid optical fiber adaptor - Google Patents

Abstract

PURPOSE: A hybrid optical fiber adaptor is provided, which can prevent loss of a transmission signal by synchronizing the modes of heterogenous optical fibers. CONSTITUTION: A socket(110) extends a plug to both sides of the body(120) and receives optical fibers in the longitudinal direction. A body comprises a penetration hole for installing a socket thereinside. A pair of tubes(130) are inserted into the external diameter of the plug. A pair of clips(140) are fixed in order to come in contact with both ends of the inside body. A pair of covers(150) are coupled with each other by coming in contact with each other and form an internal insertion part for the insertion of the body.

Description

Hybrid optical fiber adapter

The present invention relates to a hybrid optical fiber adapter, and more particularly, to a hybrid optical fiber adapter which can minimize the loss of a transmission signal by increasing the connection efficiency of heterogeneous optical fibers having different diameters.

In general, the adapter is an optical communication component for connecting optical fibers to each other. In particular, the adapter can safely transmit information without being affected by the external environment, and can accurately induce a specified position while minimizing loss of transmitted information. It is widely used in the field.

However, the conventional adapter has a problem of causing a loss of the transmission signal due to the mode mismatch between the optical fibers when connecting the optical fibers of different diameters according to the purpose.

In addition, the conventional adapter has a problem that it is difficult to match the cross section of the optical fiber to be connected accurately, the insertion loss and the reflection loss is increased to reduce the transmission quality of the optical signal.

Disclosure of Invention The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a hybrid optical fiber adapter capable of minimizing loss of a transmission signal by matching modes of optical fibers having different diameters.

The present invention includes a socket 110 in which the plug 112 is extended to both sides of the body 111 and the optical fiber 113 is accommodated in the longitudinal direction therein; An inner body (120) provided with a through hole (121) so that the socket (110) can be mounted therein; A pair of tubes 130 inserted into the outer diameter of the plug 112; Fixed to abut on both ends of the inner body 120 but in the center to form a connection pin 141 having an insertion hole (141a) to be inserted into the tube 130 and based on the connection pin 141 A pair of clips 140 on which both sides of the bombardment piece 142 protrude; The front end is coupled to each other but coupled to each other, characterized in that it comprises a pair of covers 150, the inner insertion portion 151 is formed so that the inner body 120 is inserted.

The present invention, first, has the effect of minimizing the transmission signal loss by matching the mode between heterogeneous optical fibers with different diameters, and second, to maximize the transmission quality of the loss by minimizing the insertion loss and reflection loss of the transmission signal By improving the characteristics, there is an effect that can transmit ultra-fast data.

When described in more detail by the accompanying drawings the technical configuration for achieving the object of the present invention as described above are as follows.

1 is an exploded perspective view illustrating the structure of the hybrid optical fiber adapter of the present invention, FIG. 2 is a combined perspective view illustrating the structure of the hybrid optical fiber adapter of the present invention, FIG. 3 is a cross-sectional view taken along line AA of FIG. Reference cross-sectional view for showing the operating state of the hybrid optical fiber adapter of the present invention is shown.

Referring to Figure 1, the outer diameter of the body 111 is provided with a plurality of engaging grooves (111a) in the longitudinal direction, a plurality of engaging projections so that the engaging groove (111a) is fitted in the inner diameter of the through-hole (121). 121a may be formed to fix the body 111 so that the body 111 does not run in a state where the body 111 is inserted into the through hole 121.

In the present invention, the optical fiber 113 is a method for preventing loss of a transmission signal by matching heterogeneous optical fibers having different diameters. For this purpose, a high temperature is applied to both ends of the optical fiber 113 using a microtorch to counterpart the optical fiber of the other party. It was modified to match the diameter of (B).

That is, when high heat is applied to the optical fiber 113, impurities (Ge02) in the core are diffused, so that the heterogeneous optical fibers having different diameters can be matched with each other by expanding or reducing diameters according to working conditions.

At this time, it is obvious that the optical fiber 113 can apply attenuation fiber according to the application range.

Meanwhile, a plurality of locking jaws 122 are formed at both ends of the inner body 120, and a plurality of locking jaws 143 that are engaged with the locking protrusion 121a are formed at the front end of the clap 140. This is because the catching jaws 122 and 143 are engaged with each other, so that the clip 140 is fixed to both ends of the inner body 120 without turning.

In particular, the tube 130 has a hollow shape so as to be inserted into the outer diameter of the plug 112, one end is in contact with one end of the body 111 and the other end is formed longer than the length of the plug 112 connector (A) The optical fiber (B) was induced to be inserted into the inner diameter of the tube (130).

At this time, by forming the incision 131 in the longitudinal direction on one side of the tube 130 can be firmly fixed between the outer diameter of the plug 112 and the inner diameter of the connecting pin 141.

Since the connector A is inserted into the outer diameter of the connection pin 141, the optical fiber 113 and the optical fiber B of the other end are brought into contact with each other while the cross section is exactly coincident with each other.

In particular, the tungsten piece 142 can be fixed or separated by pressing both sides of the connector (A) inserted into the outer diameter of the connection pin 141.

Referring to FIG. 3, a locking jaw 151a is formed at an inner side of the interpolation part 151 so as to contact one end of the inner body 120, which is the inner body 120 of the cover 150. This is to prevent the problem of moving from side to side in the interior.

In addition, the rear end of the cover 150 may be formed with an insertion groove 152 having a predetermined length in the longitudinal direction, which guides the projection jaw (not shown) provided at the front end of the connector A to be inserted therein. Done.

In particular, a through hole 153 may be formed at one end of the cover 150 to be fixed to one side of the device by passing through a separate fastener.

In addition, a plurality of concave grooves 154 and protrusions 155 are formed on one end of the cover 150 so that a pair of covers 150 mounted to face each other may be fitted to each other.

Therefore, when the connector A is inserted into the clip 140 as shown in FIG. 4, the hybrid fiber adapter 100 of the present invention compresses both ends of the connector A by the finger piece 142. To fix it.

In this case, the optical fiber B is inserted into the inner diameter of the tube 130 and comes into contact with one end of the optical fiber 113 deformed to match the diameter, thereby minimizing the loss of the transmission signal.

As described above, the embodiment of the present invention has been described in detail, but the scope of the present invention is not limited thereto, and the scope of the present invention is included to the extent that the present invention is substantially equivalent to the embodiment of the present invention. Of course it will.

1-An exploded perspective view for showing the structure of the hybrid optical fiber adapter of the present invention.

2 is a perspective view showing the structure of the hybrid optical fiber adapter of the present invention.

3-2 is a cross-sectional view taken along the line A-A.

4-Reference cross-sectional view for showing an operating state of the hybrid optical fiber adapter of the present invention.

Explanation of symbols on the main parts of the drawings

100: present invention hybrid optical fiber adapter

110: socket 111: body

111a: engaging groove 112: plug

113: optical fiber

120: inner body 121: through hole

121a: Jamming 122: Jamming Jaw

130: tube 131: incision

140: clip 141: connecting pin

141a: interpolation 142: bullet tip

143: jamming jaw

150: cover 151: interpolation

151a: engaging jaw 152: insertion groove

153: through hole 154: concave groove

155: turning

A: Connector B: Fiber Optic

Claims (9)

A socket 110 in which the plug 112 extends on both sides of the body 111 and the optical fiber 113 is received in the longitudinal direction; An inner body (120) provided with a through hole (121) so that the socket (110) can be mounted therein; A pair of tubes 130 inserted into the outer diameter of the plug 112; Fixed to abut on both ends of the inner body 120 but in the center to form a connection pin 141 having an insertion hole (141a) to be inserted into the tube 130 and based on the connection pin 141 A pair of clips 140 on which both sides of the bombardment piece 142 protrude; The front end of the hybrid optical fiber adapter, characterized in that it comprises a pair of covers 150, the inner insertion portion 151 is formed so that the inner body 120 is inserted in contact with each other. According to claim 1, The outer diameter of the body 111 is provided with a plurality of locking grooves 111a in the longitudinal direction, the plurality of locking projections so that the locking groove 111a is fitted in the inner diameter of the through hole 121. Hybrid optical fiber adapter, characterized in that (121a) is formed. 2. The hybrid optical fiber adapter according to claim 1, wherein high heat is applied to both ends of the optical fiber (113) so as to coincide with the diameters of the optical fibers of the other parties having different diameters. The hybrid optical fiber adapter of claim 1, wherein the optical fiber (113) uses attenuated fiber. According to claim 1, A plurality of engaging jaw 122 is formed at both ends of the inner body 120, a plurality of engaging jaw 143 is fixed to the front end of the clap 140 in engagement with the engaging projection (121a). A hybrid optical fiber adapter, characterized in that formed. The hybrid optical fiber adapter of claim 1, wherein a cutout (131) is formed at one side of the tube (130) in the longitudinal direction. The hybrid optical fiber adapter of claim 1, wherein a locking jaw (151a) is formed at one inner side of the interpolation part (151) to be in contact with one end of the inner body (120). The hybrid optical adapter of claim 1, wherein an insertion groove (152) having a predetermined length in a longitudinal direction is formed at a rear end of the cover (150). The hybrid optical fiber adapter of claim 1, wherein a concave groove (154) and a protrusion (155) are formed at one end of the cover (150).

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