NO322019B1 - Light-guide plug connector - Google Patents

Abstract

The invention relates to a light guide plug contact with a plug part provided with at least one light guide contact pin, and with a light guide sleeve part provided with a housing (2) which receives light guide contact sleeves (7) in a number corresponding to the number of light guide connectors. contact pins in the plug part and a front plate (1) which is provided with openings in a number corresponding to the number of light guide contact sleeves (7) and which is flush with them. The housing (2) has at least one pressure equalization bore (8), which causes a pressure equalization between the inner space of the housing (2) and the environment, and a membrane (5) delimiting an outer space (9) which communicates with the pressure equalization bore (8), from a inner space (29) which surrounds the light guide contact boxes (7) and which is filled with a fluid. The light guide contact sleeves (7) have a sealing sleeve (15) adjacent to the opening, a front contact (21), a sliding piston (18) displaceable therein whose diameter corresponds to the diameter of the light guide contact pin, and a spring (22) which loads the sliding piston ( 18) in the direction of the opening. The light guide contact sleeves (7) are equipped with a space arranged in the area between the sealing sleeve (15) and the front light guide contact (21), which in the unplugged state is occupied by the sliding piston (6) and which is equipped with an outlet valve (17). ), which connects it to the inner space (29) and when inserting the light guide contact pin into the light guide contact sleeve (7) opens to the inner space (29), and to an inlet valve (24, 25), which is arranged in an area at a distance from the opening and which connects the inner space (29) with the space of the light guide contact sleeve (7) and by pulling out the light guide contact shaft of the light guide contact sleeve, opens towards the inner space (29).

Description

The present invention relates to an optical fiber plug connector with features according to the introduction in claim 1.

Optical fiber plug connectors are known in and of themselves, and they are used to produce an electrical plug connection under water.

With such optical fiber plug contacts, the problem arises that water film that sticks to the optical fiber contact pin during plugging is drawn into the sleeve part.

EP 0902505 describes an optical fiber plug connector for underwater use.

The purpose of the present invention is to produce a light guide plug contact of the kind indicated at the outset, where a weakening of the light guide's contact with penetrated water or contaminants is practically excluded.

According to the invention, this purpose is achieved by means of the features in claim 1.1 and the independent claims 2-5 advantageous embodiments of the invention are indicated.

The basic idea of the invention is the design of the plug contact so that when plugged in, the light guide contact pin is flushed, whereby the contaminants that penetrate despite the seal are carried away. The subsequent absorption of fresh oil also ensures a reliable light guide contact even after several times of use.

The invention will subsequently be explained with the help of the accompanying drawings, where:

Fig. 1 shows a section through a sleeve part in such an optical fiber plug connector.

Fig. 2 shows a drawing of an optical fiber contact sleeve.

Fig. 3 shows a corresponding drawing as fig. 1, where a light guide contact pin is inserted into the light guide contact housing.

The one in fig. 1, the sleeve part of an optical fiber plug connector shows a housing 2, the end surface of which is closed with a front plate 1. In the housing, an optical fiber contact sleeve 7 is arranged (in practice, several such optical fiber contact sleeves 7 will be arranged), which aligns with an opening in the plate 1 and which serves to insert the light guide contact pin of the associated plug part. An inner space 29 is formed around the light guide contact sleeve 7, which is filled with a fluid, in particular an oil. Two membranes 5,4, which were held by a front membrane attachment 3 and a rear membrane attachment 10 and between which a space is formed, join to the outside. Between the housing 2 and the outer membrane 4, an outer space 9 is formed, which is connected to the surrounding water via a pressure equalization bore 8. The part of the sleeve part that faces away from the plate 1 is formed by a rear light guide contact holder 11, a casting receptacle 13 and a cast 14.

The light guide contact sleeve 7, as in the one in fig. In the embodiment shown in 1, there is only one of them, but where several are arranged in practice, it is designed as a cylindrical sleeve. This consists of a sealing sleeve 15, which is designed with an O-ring contour, O-ring seals 16, an outlet valve 17, a front light guide contact holder 18, a front light guide contact 21, an inlet valve 24 which is arranged in the rear area of the light guide contact sleeve 7, a rear light guide contact carrier 26, a ferrule carrier 27 and a light guide fiber 28.

In the light guide contact sleeve 7, a pressure spring 22 is inserted, which acts on a sliding piston 6 which is displaceably arranged in the cylindrical inner space, which is formed by the sealing sleeve 15, the front light guide contact holder 18 and the light guide contact 21, between the position which is shown in fig. 2 and the position shown in fig. 3.

The inner diameter of the sealing sleeve 15 thereby corresponds to the diameter of the sliding piston 6 as well as the diameter of the light guide contact pin in the plug part of the plug connector, which corresponds to this. The inner diameter of the front light guide contact holder 18 is, on the other hand, larger than the diameter of the sliding piston 6, so that an annular space is formed between the rod of the sliding piston 6 and the front light guide contact holder 18.

When, for the production of a plug connection, a light guide contact pin of the plug part is placed in the opening in the front plate 1, whereby its end face forms contact with the outward facing end surface of the sliding piston 6 and the light guide contact pin is thereby pressed into the light guide contact sleeve 7, the sliding piston 6 will penetrate into the space for the light guide contact sleeve 7 followed by the light guide contact pin. The sliding piston 6 thereby displaces oil out of the light guide contact sleeve 7 space which is filled with oil that flows through the annular space 19 past the sliding piston's rod towards the sliding piston's movement seal. In this process, the oil in the contact area is replaced, and contaminants are flushed into the space 29 through the valve 17.

When the front end of the light guide contact pin has passed the sealing sleeve 15, the oil that has been forced by the sliding piston 6 flows out of the light guide contact sleeve 7 space along the light guide contact pin, so that the water film (or a contaminant) that is on the light guide contact pin is flushed away by the oil . The oil, while bringing with it the water that has been brushed off the light guide contact pin, will then flow out of the light guide contact sleeve 7 into the inner space 29, which surrounds the light guide contact sleeve 7, through the valve 17. In this way, it is reliably prevented that the water (or the contaminants) enter the area of the optical fiber contacts 20.

The membrane 5 is thereby arranged so that the inner space 29 can accommodate an additional amount of fluid which corresponds to the volume of the light guide contact pin which penetrates into the light guide contact sleeve.

When the plug connection is released, i.e. pulling out the light guide contact pin, the compression spring 22 pushes the sliding piston 6 back to the position shown in fig. 2. During this process, the valve 24 is opened, so that oil flows from the inner space 29 through the filter 12 and into the space 7 of the light guide contact sleeve.

In addition to the fluid, a hydrophilic material can be placed in the inner space 29, which holds back water that has penetrated into the inner space 29, i.e. also prevents the re-infiltration of water into the fiber optic contact sleeve's 7 space after several plugging processes.

Claims (5)

1. Light guide plug connector with a plug part equipped with at least one light guide contact pin, and with a light guide sleeve part equipped with a housing (2) that accommodates light guide contact sleeves (7) in a number corresponding to the number of light guide contact pins in the plug part and a front plate (1) which is equipped with openings in a number corresponding to the number of optical fiber contact sleeves (7) and which are flush with these, the housing (2) comprising at least one pressure equalization bore (8), which causes a pressure equalization between the inner space of the housing (2) and the surroundings, and a membrane (5) which delimits an outer space (9) which is connected to the pressure equalization bore (8), from an inner space (29) which surrounds the optical fiber contact boxes (7) and which is filled with a fluid, and - the light guide contact sleeves (7) comprise a sealing sleeve (15) adjacent to the opening, a front contact (21), a sliding piston (18) that can be moved in this, whose diameter corresponds to the diameter of the light guide contact pin, and a spring (22 ) which loads the sliding piston (18) in direction towards the opening, characterized in that the light guide contact sleeves (7) are equipped with - a space arranged in the area between the sealing sleeve (15) and the front light guide contact (21), which in the unplugged state is occupied by the sliding piston (6) and which is equipped with an outlet valve (17), which connects it to the inner space (29) and when the light guide contact pin is inserted into the light guide contact sleeve (7) opens to the inner space (29), and - an inlet valve (24, 25), which is arranged in an area at a distance from the opening and which connects the inner space (29) with the space of the light guide contact sleeve (7) and, when the light guide contact pin is pulled out of the light guide contact sleeve, opens towards the inner room (29). 2. Light guide plug connector in accordance with claim 1, characterized in that the light guide contact sleeves (7) are equipped with a front light guide contact holder sleeve (18) arranged between the outlet valve (17) and the front light guide contact carrier (21), which between and the sliding piston (6) formed a flushing chamber (19). 3. Light guide plug connector in accordance with requirements 1 or 2, characterized in that a separation system, such as a filter, is arranged in the section between the inner space (29) and the inlet valve (24, 25). 4. Light guide plug connector in accordance with claim 3, characterized in that a hydrophilic material has been introduced into the inner space (29) which retains water which has been introduced into it. 5. Light guide plug connector in accordance with one of the preceding claims, characterized by a space arranged between the outer space (9) and the inner space (29) which is separated from the outer space (9) by means of a further membrane (4).