CN113178711A - Auxiliary joint device for debugging and preventing damage of optical end interface for communication optical transceiver - Google Patents

Abstract

The invention relates to the field of communication equipment manufacture, and discloses an auxiliary joint device for debugging and preventing damage of an optical end interface of a communication optical transceiver, which comprises a contact mechanism and a dirt absorbing mechanism, the optical terminal interface of the communication optical transceiver debugs the auxiliary joint device for preventing damage, when the device is used, the joint shell is inserted into the optical port interface, the counter pressure head moves downwards under the action of the reaction force, the downward movement of the counter pressure head drives the counter pressure slide block to move downwards, the downward movement of the counter pressure slide block drives the contact outer sleeve to move upwards, the upward movement of the contact outer sleeve drives the contact sloping block to move upwards, when the contact sloping block contacts the contact stop block, the contact sloping block moves leftwards under the blocking effect of the contact stop block, and the leftward movement of the contact sloping block drives the contact joint to contact the inner wall of the interface of the optical transceiver, so that the function of automatically reducing abrasion during joint connection and prolonging the service life is achieved.

Description

Auxiliary joint device for debugging and preventing damage of optical end interface for communication optical transceiver

Technical Field

The invention relates to the field of communication equipment manufacturing, in particular to an auxiliary joint device for debugging and preventing damage of an optical terminal interface of a communication optical transceiver.

Background

In the development of the communication technology, information can be rapidly shared by using communication equipment, so that data transmission is greatly facilitated, the most frequent communication is the transmission of an optical fiber network at present, the transmission of optical fibers cannot be influenced by the outside, the information safety is greatly improved, and the information exchange efficiency is also improved due to the generation of an optical transceiver.

But at present when using optical transmitter and receiver, need installer to carry out signal detection through external equipment to optical transmitter and receiver, need operating personnel to be connected optical transmitter and receiver and external equipment through attach fitting when testing, and present joint mostly is pointer joint, and long-term test can lead to the joint wearing and tearing great, leads to connecting bad contact and influences the test result, can't reach intelligent detection standard.

In view of the above, the present invention provides an auxiliary connector device for debugging and preventing damage of an optical terminal interface of a communication optical transceiver, which is improved in view of the conventional structure and defects, so as to achieve the purpose of higher practical value.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an auxiliary joint device for debugging and preventing the damage of an optical end interface for a communication optical transceiver, which has the advantages of automatically preventing the joint from being damaged due to long-term work, automatically cleaning dirt in the interface and automatically lubricating the inside of the joint, and solves the problems that the joint is abraded and the use is influenced due to long-term use of the joint and the dirt in the joint is poor in contact and blocked.

(II) technical scheme

In order to automatically prevent the joint from being damaged after long-term work and automatically clean dirt in the joint and automatically lubricate the inside of the joint, the invention provides the following technical scheme: the utility model provides a communication optical transmitter and receiver optical end interface debugging anti-damage's auxiliary joint device, includes contact mechanism and dirt absorbing mechanism, contact mechanism includes the back pressure pipeline, the inside swing joint of back pressure pipeline has the contact piston, the fixed surface of contact piston is connected with the piston spring, the top fixedly connected with contact overcoat of contact piston, the inside of contact overcoat has the contact sloping block through the spout swing joint who sets up, the top swing joint of contact sloping block has the contact dog, the left side fixedly connected with contact joint of contact sloping block, the left side fixedly connected with sloping block spring of contact sloping block, the one end fixedly connected with contact overcoat of contact sloping block is kept away from to the sloping block spring.

Further, the sewage suction mechanism comprises a sewage suction swing rod, the surface of the sewage suction swing rod is movably connected with a sewage suction screw block, the inside of the sewage suction screw block is meshed with a sewage suction screw rod, the left end of the sewage suction screw rod is fixedly connected with a sewage suction conical tooth group, the top of the sewage suction conical tooth group is fixedly connected with a reverse suction blade, the surface of the reverse suction blade is rotatably connected with a bearing, the surface of the reverse suction blade is movably connected with a reverse suction pipeline, and the reverse suction pipeline is far away from the reverse suction blade and is fixedly connected with a reverse suction one-way head.

Furthermore, the surface of the back pressure pipeline is fixedly connected with a joint shell, a back pressure mechanism is arranged in the inner activity of the joint shell, a contact mechanism is movably connected in the inner activity of the joint shell, a dirt suction mechanism is rotatably connected in the joint shell, and a lubricating mechanism is fixedly connected above the dirt suction mechanism.

Further, the back pressure mechanism includes the back pressure head, and the bottom fixedly connected with back pressure slider of back pressure head, the one end fixedly connected with back pressure piston that the back pressure head was kept away from to the back pressure slider, and the top fixedly connected with of back pressure slider stretches the spring, draws to rise the spring and keeps away from the one end of back pressure slider and the inside fixed connection who connects the shell.

Furthermore, lubricating mechanism includes lubricated connecting rod, and lubricated connecting rod's fixed surface is connected with lubricated ball piece, and lubricated ball piece's surperficial swing joint has lubricated shower nozzle, and lubricated ball piece's left end fixedly connected with lubricating spring, the inside fixed connection of lubricated ball piece's one end and lubricated shower nozzle is kept away from to lubricating spring.

Furthermore, the inside swing joint of back pressure pipeline has the back pressure piston, and the piston spring is kept away from the one end of contact piston and is connected the inside fixed connection of shell, and the dirt suction pendulum rod is kept away from the one end of dirt suction silk piece and the surperficial swing joint of back pressure slider, the surface of bearing and the inside fixed connection who connects the shell, the top fixed connection of dirt suction silk piece has lubricated connecting rod, the surface of lubricated shower nozzle and the inside fixed connection who connects the shell.

(III) advantageous effects

Compared with the prior art, the invention provides an auxiliary joint device for debugging and preventing damage of an optical end interface of a communication optical transceiver, which has the following beneficial effects:

1. when the device is used, the connector shell is inserted into the optical port connector at the moment, the counter pressure head moves downwards under the action of a counter force, the downward movement of the counter pressure head drives the counter pressure slide block to move downwards, the downward movement of the counter pressure slide block drives the counter pressure piston to move downwards in the counter pressure pipeline to press air in the counter pressure pipeline, the air in the counter pressure pipeline is pressed to push the contact piston to move upwards, the upward movement of the contact piston drives the contact outer sleeve to move upwards, the upward movement of the contact outer sleeve drives the contact sloping block to move upwards, when the contact sloping block is contacted with the contact stopping block, the contact sloping block moves leftwards under the blocking action of the contact stopping block, the leftward movement of the contact sloping block drives the contact connector to act on the inner wall of the interface of the optical transceiver, thereby reach the function that produces wearing and tearing and increase life when automatic intellectuality reduces to connect.

2. The auxiliary joint device for debugging and preventing damage of the optical end interface for the communication optical transceiver drives the dirt absorbing swing rod to swing obliquely downwards through the downward movement of the back pressure slide block, the dirt absorbing swing rod swings obliquely downwards to drive the dirt absorbing screw block to move leftwards, the leftward movement of the dirt absorbing screw block drives the dirt absorbing screw rod to rotate due to the meshing effect, the rotation of the dirt absorbing screw rod drives the dirt absorbing bevel gear group to rotate, the rotation of the dirt absorbing bevel gear group drives the reverse absorbing blade to rotate, the rotation of the reverse absorbing blade generates negative pressure on air in a reverse absorbing pipeline, at the moment, the negative pressure of the reverse absorbing unidirectional head sucks air into the interface, the rightward movement of the dirt absorbing screw block drives the lubricating connecting rod to move leftwards, the leftward movement of the lubricating connecting rod drives the lubricating ball block to move leftwards, the leftward movement of the lubricating ball block extrudes lubricating oil in the lubricating nozzle, the lubricating oil is extruded to be sprayed into the interface through the spraying head of the lubricating nozzle after being extruded, thereby reach the inside foul of automatic absorption interface and prevent bad contact and the inside function of preventing the card from appearing of self-lubricate.

Drawings

FIG. 1 is a schematic view of a connector housing according to the present invention;

FIG. 2 is a schematic view of a back suction unidirectional head structure according to the present invention;

FIG. 3 is a schematic view of a back pressure slide configuration of the present invention;

FIG. 4 is a schematic view of a contact piston configuration according to the present invention;

FIG. 5 is a schematic view of a reverse leaf-sucking structure according to the present invention.

In the figure: 1. a connector housing; 2. a back pressure mechanism; 21. a counter pressure head; 22. a back-pressure slide block; 23. a back pressure piston; 3. a contact mechanism; 31. back pressure pipeline; 32. a contact piston; 33. contacting the outer sleeve; 34. contacting the swash block; 35. a contact joint; 36. a contact stop; 4. a dirt suction mechanism; 41. a sewage suction swing rod; 42. a sewage suction silk block; 43. a sewage suction screw rod; 44. a sewage suction bevel gear group; 45. reversely sucking leaves; 46. a back suction pipe; 47. a back suction one-way head; 5. a lubrication mechanism; 51. lubricating the connecting rod; 52. a lubricating ball block; 53. and (5) lubricating the spray head.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

please refer to fig. 1 and 2 and fig. 3 and 4, an auxiliary joint device for debugging and preventing damage of an optical end interface for a communication optical transceiver includes a contact mechanism 3 and a dirt absorbing mechanism 4, the contact mechanism 3 includes a back pressure pipeline 31, the inside of the back pressure pipeline 31 is movably connected with a contact piston 32, the surface of the contact piston 32 is fixedly connected with a piston spring, the top of the contact piston 32 is fixedly connected with a contact housing 33, the inside of the contact housing 33 is movably connected with a contact sloping block 34 through a set chute, the upper side of the contact sloping block 34 is movably connected with a contact stopper 36, the left side of the contact sloping block 34 is fixedly connected with a contact joint 35, the left side of the contact sloping block 34 is fixedly connected with a sloping block spring, and one end of the sloping block spring far away from the contact sloping block 34 is fixedly connected with the contact housing 33.

When the device is used, the connector shell 1 is inserted into the optical port interface at this time, the counter pressure head 21 moves downwards under the action of a counter force, the downward movement of the counter pressure head 21 drives the counter pressure slide block 22 to move downwards, the downward movement of the counter pressure slide block 22 drives the counter pressure piston 23 to move downwards in the counter pressure pipeline 31 to press air in the counter pressure pipeline 31, the air in the counter pressure pipeline 31 is pressed to push the contact piston 32 to move upwards, the upward movement of the contact piston 32 drives the contact outer sleeve 33 to move upwards, the upward movement of the contact outer sleeve 33 drives the contact sloping block 34 to move upwards, when the contact sloping block 34 contacts the contact stop block 36, the contact sloping block 34 moves leftwards under the blocking action of the contact stop block 36, and the leftward movement of the contact sloping block 34 drives the contact joint 35 to act on the inner wall of the interface of the optical transceiver, so that the function of automatically reducing abrasion generated during joint connection and prolonging the service life is achieved.

Further, the dirt absorbing mechanism 4 comprises a dirt absorbing swing rod 41, the surface of the dirt absorbing swing rod 41 is movably connected with a dirt absorbing screw block 42, the dirt absorbing screw rod 43 is meshed inside the dirt absorbing screw block 42, the left end of the dirt absorbing screw rod 43 is fixedly connected with a dirt absorbing bevel gear group 44, the top of the dirt absorbing bevel gear group 44 is fixedly connected with an inverse suction blade 45, the surface of the inverse suction blade 45 is rotatably connected with a bearing, the surface of the inverse suction blade 45 is movably connected with an inverse suction pipeline 46, and the inverse suction pipeline 46 is far away from the inverse suction blade 45 and is fixedly connected with an inverse suction one-way head 47.

Further, the fixed surface of the back pressure pipeline 31 is connected with a joint shell 1, a back pressure mechanism 2 is arranged in the inner part of the joint shell 1, a contact mechanism 3 is movably connected in the inner part of the joint shell 1, a dirt suction mechanism 4 is rotatably connected in the inner part of the joint shell 1, and a lubricating mechanism 5 is fixedly connected above the dirt suction mechanism 4.

Further, the back pressure mechanism 2 comprises a back pressure head 21, a back pressure slider 22 is fixedly connected to the bottom of the back pressure head 21, a back pressure piston 23 is fixedly connected to one end, away from the back pressure head 21, of the back pressure slider 22, a stretching spring is fixedly connected to the top of the back pressure slider 22, and one end, away from the back pressure slider 22, of the stretching spring is fixedly connected to the inside of the joint housing 1.

Example two:

please refer to fig. 5, an auxiliary joint device for debugging and damage prevention of optical end interface for communication optical transceiver, including contact mechanism 3 and dirt absorbing mechanism 4, contact mechanism 3 includes back pressure pipeline 31, the inside swing joint of back pressure pipeline 31 has contact piston 32, the fixed surface of contact piston 32 is connected with the piston spring, the top fixedly connected with contact overcoat 33 of contact piston 32, the inside of contact overcoat 33 has contact sloping block 34 through the spout swing joint who sets up, the top swing joint of contact sloping block 34 has contact dog 36, the left side fixedly connected with contact joint 35 of contact sloping block 34, the left side fixedly connected with sloping block spring of contact sloping block 34, the one end fixedly connected with contact overcoat 33 of contact sloping block 34 is kept away from to the sloping block spring.

Meanwhile, the downward movement of the back pressure slide block 22 drives the sewage suction swing rod 41 to swing obliquely downward, the sewage suction swing rod 41 swings obliquely downward to drive the sewage suction screw block 42 to move leftward, the leftward movement of the sewage suction screw block 42 drives the sewage suction screw rod 43 to rotate due to meshing, the rotation of the sewage suction screw rod 43 drives the sewage suction conical tooth group 44 to rotate, the rotation of the sewage suction conical tooth group 44 drives the reverse suction vane 45 to rotate, the rotation of the reverse suction vane 45 generates negative pressure to air in the reverse suction pipeline 46, and at the moment, the negative pressure of the reverse suction unidirectional head 47 sucks air in the interface, so that the function of automatically absorbing dirt in the interface and preventing poor contact is achieved.

And the dirt absorbing wire block 42 moves rightwards to drive the lubricating connecting rod 51 to move leftwards, the lubricating connecting rod 51 moves leftwards to drive the lubricating ball block 52 to move leftwards, the lubricating ball block 52 moves leftwards to extrude the lubricating oil in the lubricating spray head 53, the lubricating oil is sprayed into the interface through the spray head of the lubricating spray head 53 after being extruded, and therefore the function of preventing the jamming in the automatic lubricating device is achieved.

Further, the lubricating mechanism 5 comprises a lubricating connecting rod 51, a lubricating ball block 52 is fixedly connected to the surface of the lubricating connecting rod 51, a lubricating spray nozzle 53 is movably connected to the surface of the lubricating ball block 52, a lubricating spring is fixedly connected to the left end of the lubricating ball block 52, and one end, far away from the lubricating ball block 52, of the lubricating spring is fixedly connected with the inside of the lubricating spray nozzle 53.

Further, the inside swing joint of back pressure pipeline 31 has back pressure piston 23, and the piston spring is kept away from the one end of contact piston 32 and is connected the inside fixed connection of shell 1, and the dirt absorption pendulum rod 41 is kept away from the one end of dirt absorption silk piece 42 and is connected with the surface swing joint of back pressure slider 22, and the surface of bearing and the inside fixed connection who connects shell 1, the top fixed connection of dirt absorption silk piece 42 has lubricated connecting rod 51, and the surface of lubricated shower nozzle 53 and the inside fixed connection who connects shell 1.

The working principle is as follows: when the device is used, the connector shell 1 is inserted into the optical port interface at this time, the counter pressure head 21 moves downwards under the action of a counter force, the downward movement of the counter pressure head 21 drives the counter pressure slide block 22 to move downwards, the downward movement of the counter pressure slide block 22 drives the counter pressure piston 23 to move downwards in the counter pressure pipeline 31 to press air in the counter pressure pipeline 31, the air in the counter pressure pipeline 31 is pressed to push the contact piston 32 to move upwards, the upward movement of the contact piston 32 drives the contact outer sleeve 33 to move upwards, the upward movement of the contact outer sleeve 33 drives the contact sloping block 34 to move upwards, when the contact sloping block 34 contacts the contact stop block 36, the contact sloping block 34 moves leftwards under the blocking action of the contact stop block 36, and the leftward movement of the contact sloping block 34 drives the contact joint 35 to act on the inner wall of the interface of the optical transceiver, so that the function of automatically reducing abrasion generated during joint connection and prolonging the service life is achieved.

Meanwhile, the downward movement of the back pressure slide block 22 drives the sewage suction swing rod 41 to swing obliquely downward, the sewage suction swing rod 41 swings obliquely downward to drive the sewage suction screw block 42 to move leftward, the leftward movement of the sewage suction screw block 42 drives the sewage suction screw rod 43 to rotate due to meshing, the rotation of the sewage suction screw rod 43 drives the sewage suction conical tooth group 44 to rotate, the rotation of the sewage suction conical tooth group 44 drives the reverse suction vane 45 to rotate, the rotation of the reverse suction vane 45 generates negative pressure to air in the reverse suction pipeline 46, and at the moment, the negative pressure of the reverse suction unidirectional head 47 sucks air in the interface, so that the function of automatically absorbing dirt in the interface and preventing poor contact is achieved.

And the dirt absorbing wire block 42 moves rightwards to drive the lubricating connecting rod 51 to move leftwards, the lubricating connecting rod 51 moves leftwards to drive the lubricating ball block 52 to move leftwards, the lubricating ball block 52 moves leftwards to extrude the lubricating oil in the lubricating spray head 53, the lubricating oil is sprayed into the interface through the spray head of the lubricating spray head 53 after being extruded, and therefore the function of preventing the jamming in the automatic lubricating device is achieved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a supplementary piecing devices of damage is prevented in debugging of optical terminal interface for communication optical transmitter and receiver which characterized in that: including contact mechanism (3) and soil pick-up mechanism (4), contact mechanism (3) are including back pressure pipeline (31), the inside swing joint of back pressure pipeline (31) has contact piston (32), the fixed surface of contact piston (32) is connected with the piston spring, the top fixedly connected with contact overcoat (33) of contact piston (32), the inside of contact overcoat (33) has contact sloping block (34) through the spout swing joint who sets up, the top swing joint of contact sloping block (34) has contact dog (36), the left side fixedly connected with contact joint (35) of contact sloping block (34), the left side fixedly connected with sloping block spring of contact sloping block (34), the one end fixedly connected with contact overcoat (33) of contact sloping block (34) are kept away from to the sloping block spring.

2. The optical terminal interface debugging anti-damage auxiliary joint device for communication optical transceiver of claim 1, wherein: the sewage absorbing mechanism (4) comprises a sewage absorbing swing rod (41), the surface of the sewage absorbing swing rod (41) is movably connected with a sewage absorbing thread block (42), the inside of the sewage absorbing thread block (42) is meshed with a sewage absorbing thread rod (43), the left end of the sewage absorbing thread rod (43) is fixedly connected with a sewage absorbing conical tooth group (44), the top of the sewage absorbing conical tooth group (44) is fixedly connected with an inverse absorbing blade (45), the surface of the inverse absorbing blade (45) is rotatably connected with a bearing, the surface of the inverse absorbing blade (45) is movably connected with an inverse absorbing pipeline (46), and the inverse absorbing pipeline (46) is far away from the inverse absorbing blade (45) and is fixedly connected with an inverse absorbing one-way head (47).

3. The optical terminal interface debugging anti-damage auxiliary joint device for communication optical transceiver of claim 1, wherein: the surface fixing of back pressure pipeline (31) is connected with connects shell (1), has back pressure mechanism (2) in the inside activity that connects shell (1), and the inside swing joint that connects shell (1) has contact mechanism (3), and the inside rotation that connects shell (1) is connected with soil pick-up mechanism (4), and the top fixedly connected with lubricating mechanism (5) of soil pick-up mechanism (4).

4. The optical terminal interface debugging anti-damage auxiliary joint device for communication optical transceiver of claim 3, wherein: the back pressure mechanism (2) comprises a back pressure head (21), a back pressure sliding block (22) is fixedly connected to the bottom of the back pressure head (21), a back pressure piston (23) is fixedly connected to one end, far away from the back pressure head (21), of the back pressure sliding block (22), a stretching spring is fixedly connected to the top of the back pressure sliding block (22), and one end, far away from the back pressure sliding block (22), of the stretching spring is fixedly connected with the inside of the joint shell (1).

5. The optical terminal interface debugging anti-damage auxiliary joint device for communication optical transceiver of claim 3, wherein: lubricating mechanism (5) are including lubricated connecting rod (51), and the fixed surface of lubricated connecting rod (51) is connected with lubricated ball piece (52), and the surface swing joint of lubricated ball piece (52) has lubricated shower nozzle (53), and the left end fixedly connected with of lubricated ball piece (52) lubricates the spring, and the inside fixed connection of lubricated one end of spring keeping away from lubricated ball piece (52) and lubricated shower nozzle (53).

6. The optical terminal interface debugging anti-damage auxiliary joint device for communication optical transceiver of claim 1, wherein: the inside swing joint of backpressure pipeline (31) has backpressure piston (23), the piston spring is kept away from the one end of contact piston (32) and is connected the inside fixed connection of shell (1), the dirt absorption pendulum rod (41) is kept away from the one end of dirt absorption silk piece (42) and the surperficial swing joint of backpressure slider (22), the surface of bearing and the inside fixed connection who connects shell (1), the top fixedly connected with lubricated connecting rod (51) of dirt absorption silk piece (42), the surface of lubricated shower nozzle (53) and the inside fixed connection who connects shell (1).

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