JP6926363B1 - Fiber optic coupler - Google Patents

Abstract

A hydraulic coupler including locking means includes a drive mechanism 1, a protection mechanism 2, an adjustment mechanism 3, a suspension mechanism 4, a sealing mechanism 5, a fixed frame, an optical fiber coupler main body, and the like. The optical fiber coupler body, which includes a filtration mechanism and is an instrument for performing a removable connection between optical fibers, is fixed to the inverted Y-shaped fixed frame, which protects the fixed frame. It is fixed to the adjustment mechanism 3 for adjusting the angle of the mechanism 2, and the protection mechanism 2 for protecting the optical fiber coupler main body is connected to the adjustment mechanism 3 and provided to the adjustment mechanism 3 for fixing. A suspension mechanism 4 is provided, and a sealing mechanism 5 for sealing an optical fiber is provided at both ends of the protection mechanism 2. [Effect] With this configuration, it is possible to more comfortably inspect and maintain the optical fiber coupler main body while improving the sealing property between the optical fiber and the optical fiber coupler. [Selection diagram] Fig. 1

Description

The present invention relates to the field of an optical fiber coupler, specifically, a hydraulic coupler provided with locking means.

The optical fiber coupler is also called a turnout, a connector, an adapter, or an optical fiber flange disk, and is an element for realizing branching / junction of an optical signal. It belongs to the optical passive element area, is also used in telecommunications networks, cable television networks, user circuit systems, and area networks, and is an optical device for realizing allocation or combination between optical fibers having different optical signal outputs. It is composed of the interaction of waveguide energy adjacent to the optical fiber core region of different optical fiber surfaces, and is classified into multi-mode optical fiber, single-mode optical fiber, polarization protection optical coupler, etc. according to the adopted optical fiber type. Will be done.

However, fiber optic couplers are used outdoors in the mountains, and fiber optics are often fixed to wires between wire poles, when connecting fiber optic couplers between adjacent fiber optics, optical. The tightness between the fiber and the fiber optic coupler is poor, dust and rain can get into the connection, and the fiber optic coupler is not easy to secure on the smooth wire. Since the coupler is installed inside the housing, it is inconvenient to inspect and maintain the optical fiber coupler.

In order to solve the above problem, a hydraulic coupler equipped with the following locking means is adopted.

The hydraulic coupler provided with the locking means includes a drive mechanism 1, a protection mechanism 2, an adjustment mechanism 3, a suspension mechanism 4, a sealing mechanism 5, a fixed frame 6, an optical fiber coupler body 7, and a filtration mechanism. The optical fiber coupler main body 7, which includes 8 and is an instrument for performing a removable connection between optical fibers, is fixed to the fixed frame 6 having an inverted Y shape, and the fixed frame 6 is fixed. Is fixed to the adjustment mechanism 3 for adjusting the angle of the protection mechanism 2, and the protection mechanism 2 for protecting the optical fiber coupler main body 7 is connected to the adjustment mechanism 3 and provided. The adjustment mechanism 3 is provided with the suspension mechanism 4 for fixing, and the suspension mechanism 4 is provided at one end of the adjustment mechanism 3 opposite to the fixed frame 6, and is provided at both ends of the protection mechanism 2. The sealing mechanism 5 for sealing the optical fiber is provided, and the filtering mechanism 8 for scrap filtration or ventilating is provided at the bottom end of the protection mechanism 2, and the bottom end of the protection mechanism 2 is provided. Is provided with the drive mechanism 1, and the drive mechanism 1 is connected to the filtration mechanism 8.

Preferably, the adjustment mechanism 3 includes a connection block 31, a transmission shaft 32, and a storage frame 33.
The fixed frame 6 is vertically fixed to the bottom end of the storage frame 33, and is rotatably connected to the inside of the storage frame 33, including the screw rod 34, the second gear 35, and the rack 36. The two transmission shafts 32 penetrate through the transmission shaft 32, and the two connection blocks 31 are symmetrically provided at both ends of the transmission shaft 32. The transmission shaft 32 has the second transmission shaft 32.
The gear 35 is fixed, the second gear 35 is provided inside the storage frame 33, the rack 36 and the transmission shaft 32 are perpendicular to each other, and the rack 36 and the second gear 35. Are in mesh with each other, and the rotation directions of the two second gears 35 are opposite to each other.
The screw rod 34 having a regular hexagonal end is the storage frame 33 and the rack 36.
The screw rod 34 and the storage frame 33 are rotatably connected, and the screw rod 34 and the rack 36 are screw-connected.

Preferably, the protective mechanism 2 includes a heat radiating groove 21, a protective sleeve 22, and a transmission block 23, and two connection blocks 31 on the same transmission shaft 32 are connected to the same transmission block 23. It is fixed, and the protective sleeve 22 for protecting the optical fiber coupler main body 7 is provided at one end of the transmission block 23 opposite to the connection block 31, and the two protective sleeves 22 are connected to each other. The protective sleeve 22 which is in contact with each other and has a hollow inside is provided with a plurality of heat dissipation grooves 21 used for heat dissipation, and the protective sleeve 22 sandwiches the fixed frame 6.

Preferably, the sealing mechanism 5 includes a sealing seal 51, a guide groove 52, a piston 53, and a transmission rod 54 so as to be slidably connected to both ends of one of the protective sleeves 22. Two pistons 53 are provided, and a storage space between the piston 53 and the protective sleeve 22 communicates with the guide groove 52 at one end of the piston 53 opposite to the guide groove 52. The transmission rod 54 that is slidably connected is provided, and the transmission rod 54 is installed so as to come into contact with the other protective sleeve 22.
The ring-shaped sealing seal 51 having a storage space for storing the liquid and the protective sleeve 22 having the piston 53 are engaged with each other, and the sealing seal 51 and the guide groove 52 are engaged with each other. There is.
Preferably, the filtration mechanism 8 includes a first filtration net 81, a bottom plate 82, and a second filtration net 83, and one bottom plate 82 is provided at the bottom end of each of the two protective sleeves 22. The first filtration net 81 and the second filtration net 83 are provided on the two bottom plates 82, respectively, and the cross section of the second filtration net 83 is formed in a ripple shape.

Preferably, the drive mechanism 1 includes a wing piece 11, a guide plate 12, a sleeve cylinder 13, a drive shaft 14, a first gear 15, a pressing rod 16, and a connecting shaft 17. 2 The bottom plate 82 to which the filtration net 83 is fixed, the guide plate 12, the drive shaft 14, and the connection shaft 17 are provided on the same protective sleeve 22, and the drive shaft 14 and the drive shaft 14 and the connection shaft 17 are provided. Each of the connecting shafts 17 is rotatably connected between the protective sleeves 22, the sleeve cylinder 13 is fixed to the drive shaft 14, and the sleeve cylinder 13 is connected to the sleeve cylinder 13 along its circumferential direction. At least three of the wing pieces 11 are provided, one of the first gears 15 is provided on each of the connecting shaft 17 and the drive shaft 14, and the two first gears 15 mesh with each other. The diameter of the first gear 15 on the connecting shaft 17 is larger than the diameter of the first gear 15 on the drive shaft 14, and the pressing rod 16 is fixed perpendicularly to the connecting shaft 17, and the pressing rod is fixed. 16 and the second filtration net 83 are in contact with each other, and the guide plate 12 on the protective sleeve 22 is installed in an inclined manner.

Preferably, the suspension mechanism 4 of the coupler includes a connecting rod 41, a position limiting rod 42, a pressing block 43, a rubber sleeve 44, a sandwiching block 45, and a return spring 46, and has a U-shaped cross section. One end of the connecting rod 41 to be shaped is the storage frame 3
The pressure block 43 and the connecting rod 41 are rotatably connected to each other, and the return spring 46 is provided between the pressing block 43 and the connecting rod 41. The position-limited rod 42 and the connection rod 41 are screw-connected, the position-limited rod 42 and the pressure block 43 are in contact with each other, and one pinch is provided between the pressure block 43 and the connection rod 41. A block 45 is provided, and the rubber sleeve 44 is provided between the two sandwiching blocks 45.

The advantages of the present invention are as follows, as compared with the prior art.
(1) The optical fiber coupler main body 7, which is an instrument for making a removable connection between optical fibers, is fixed to the fixed frame 6 having an inverted Y shape. The fixed frame 6 is fixed to the adjusting mechanism 3 for adjusting the angle of the protective mechanism 2. Then, the protection mechanism 2 for protecting the optical fiber coupler main body 7 to the adjustment mechanism 3
Is connected and provided. With this configuration, the protection mechanism 2 can be driven by the adjustment mechanism 3 so as not to seal the optical fiber coupler main body 7. Further, the suspension can be installed on the fixed frame 6 by hollowing out the optical fiber coupler main body 7. With such a configuration, inspection and maintenance of the optical fiber coupler main body 7 can be performed more comfortably. Specifically, when maintaining the optical fiber coupler main body 7 in the protective sleeve 22, the screw rod 34 may be rotated. In this case, the screw rod 34 causes the rack 36 to be on the side opposite to one end of the screw rod 34. The rack 36 slides inside the storage frame 33, and the rack 36 rotates the two second gears 35 at both ends. Further, since the rotation directions of the two second gears 35 are opposite to each other, the two second gears 35 are rotated in opposite directions.
The gear 35 rotates the two transmission shafts 32. By rotating the protective sleeve 22 via the connection block 31 by the transmission shaft 32, the distance between the two protective sleeves 22 is increased, and the optical fiber coupler main body 7 is connected by the protective sleeve 22. Make it unobstructed. Therefore, the inspection and maintenance of the optical fiber coupler main body 7 on the fixed frame 6 can be performed more comfortably. After the inspection and maintenance are completed, the screw rod 34 may be rotated in the reverse direction. In this case, the rack 36 is screw-driven by the screw rod 34 and slid toward one end of the screw rod 34. Then, the rack 36 slides inside the storage frame 33, and the rack 36 rotates the two second gears 35 at both ends. Since the rotation directions of the two second gears 35 are opposite to each other, the two transmission shafts 32 are provided by the two second gears 35.
The protective sleeve 22 is rotated by the transmission shaft 32 via the connection block 31. As a result, the distance between the two protective sleeves 22 is reduced until they conflict with each other, and the optical fiber coupler body 7 is shielded by the two protective sleeves 22. As a result, it is possible to effectively prevent dust and rain from coming into contact with the optical fiber coupler main body 7. Thereby, the inspection and maintenance of the optical fiber coupler main body 7 can be performed more comfortably.
(2) The sealing mechanism 5 for sealing the optical fiber is provided at both ends of the protection mechanism 2. When the protection mechanism 2 is closed by this, the liquid of the sealing mechanism 5 is increased in pressure to expand the sealing mechanism 5 and fix the optical fiber and the protection mechanism 2. Thereby, the connection between the optical fiber and the protection mechanism 2 can be made more airtight. With such a configuration, it is possible to effectively prevent rain, dust, etc. from entering the connection position between the optical fiber and the optical fiber coupler main body 7, and it is possible to significantly improve the stability of use.
Specifically, when assembling the optical fiber, the two optical fibers are inserted into the two sealing seals 51, respectively, and when the two protective sleeves 22 come close to each other, one of the protective sleeves is used. The 22 is brought into contact with the transmission rod 54 on the other protective sleeve 22, and in that case, the piston 53 and the protective sleeve 22 are slid with each other by the thrust of the transmission rod 54, and the said. The space of the guide groove 52 is reduced. As a result, the oil liquid in the guide groove 52 is pushed out into the sealing seal 51, and the sealing seal 51 is pushed out and expanded. As a result, the sealing seal 51 and the optical fiber are closely adhered to each other. By closely adhering the sealing seal 51 and the protective sleeve 22 in this way, it is possible to effectively prevent rain, dust, etc. from entering the connection position between the optical fiber and the optical fiber coupler main body 7. Can be done, and the stability of use can be greatly improved.
(3) The drive mechanism 1 is provided at the bottom end of the protection mechanism 2. Then, the drive mechanism 1 is connected to the filtration mechanism 8. By providing the drive mechanism 1 in this way, the inflow and outflow of the airflow from the protection mechanism 2 can be limited to one direction, and the heat dissipation effect on the inside of the protection mechanism 2 is further improved. Further, since the filtration mechanism 8 can be driven by vibration by the drive mechanism 1, the clogging prevention effect of the filtration mechanism 8 can be improved and the intrusion of debris and the like into the protection mechanism 2 can be prevented. Specifically, when the wind blows, the wing piece 11 is blown by the wind, and the sleeve cylinder 13 is driven by the wing piece 11 to rotate the drive shaft 14. The rotation of the blade piece 11 creates an air flow in the direction toward the second filtration net 83. Therefore, air is allowed to enter the inside of the protective sleeve 22 through the second filtration net 83. Further, since the guide plate 12 is installed in an inclined manner, the airflow can be exhausted from the first filtration net 81 after entering from the second filtration net 83, so that the airflow is limited to one direction. You can control the entry and exit. Thereby, the heat dissipation effect on the optical fiber coupler main body 7 in the protective sleeve 22 can be improved. Further, since the first filtration net 81 and the second filtration net 83 are provided at the bottom end of the protective sleeve 22, it effectively prevents rain, dust, etc. from entering the inside of the protective sleeve 22. can do. By rotationally driving the first gear 15 on the connecting shaft 17 by the first gear 15 on the drive shaft 14, and the diameter of the first gear 15 on the connecting shaft 17 is the drive shaft 14. By making the diameter larger than the diameter of the first gear 15, the pressing rod 16 is driven by the connecting shaft 17.
Further, since a sufficient acting force for driving the second filtration net 83 to deform and vibrate the second filtration net 83 is sufficiently secured, it is possible to effectively prevent the second filtration net 83 from being clogged with dust or the like.
(4) The suspension mechanism 4 for fixing is provided in the adjusting mechanism 3. and,
The suspension mechanism 4 is provided at one end of the adjusting mechanism 3 on the opposite side of the fixed frame 6. By providing the suspension mechanism 4 in this way, the coupler can be connected to the steel wire, and the coupler can be comfortably attached and detached. That is,
First, the position-limited rod 42 is rotated to form the position-limited rod 42 and the pressure block 4.
Make sure that it does not conflict with 3. Next, by pressing the pressure block 43, the pressure block 43 and the connection rod 41 are rotated, and the return spring 46 is used.
To extend. Then, the two sandwiching blocks 45 are unfolded and the steel wire is arranged between the rubber sleeves 44 between the two sandwiching blocks 45. At this time, the pressing block 43 is loosened and the return is performed. The spring 4 is contracted, whereby the pressing block 43
Is rotated toward the rubber sleeve 44 side. Then, by rotating the position limiting rod 42, the position limiting rod 42 is brought into contact with the pressing block 43 to limit the position of the pressing block 43. In this way, the steel wire can be reliably sandwiched between the two sandwiching blocks 43, facilitating the fixing and removal of the coupler.

Hereinafter, the present invention will be further described with reference to the drawings and examples.
It is an overall block diagram of the hydraulic coupler provided with the locking means which concerns on this invention. It is an enlarged view of the part A shown in FIG. It is an enlarged view of the B location shown in FIG. It is the schematic which shows the connection structure of the protection structure and adjustment structure shown in FIG. It is an enlarged view of the C location shown in FIG. It is an enlarged view of the D portion shown in FIG. It is an enlarged view of the E location shown in FIG. It is an enlarged view of the F portion shown in FIG. It is the schematic of the connection structure of the protective sleeve and a sealing mechanism shown in FIG.

[Explanation of code]
Drive mechanism 1, Protection mechanism 2, Adjustment mechanism 3, Suspension mechanism 4, Sealing mechanism 5, Fixed frame 6, Optical fiber coupler body 7, Filtration mechanism 8, Connection block 31, Transmission shaft 32, Storage frame 33, Screw rod 34, Second
Gear 35, Rack 36, Heat dissipation groove 21, Protective sleeve 22, Transmission block 23, Sealing seal 51, Guide groove 52, Piston 53, Transmission rod 54
, 1st filtration net 81, bottom plate 82, 2nd filtration net 83, wing piece 11,
Guide plate 12, sleeve cylinder 13, drive shaft 14, first gear 15, pressing rod 16, connecting shaft 17, connecting rod 41, position-limited rod 42, pressing block 43, rubber sleeve 44, pinching block 45, return spring 46

In order to make it easier to understand the technical means, creative features, objectives and effects realized by the present invention, the present invention will be further described below in relation to specific embodiments.

As shown in FIGS. 1 to 9, the hydraulic coupler provided with the locking means includes a drive mechanism 1, a protection mechanism 2, an adjustment mechanism 3, a suspension mechanism 4, a sealing mechanism 5, a fixed frame 6, and the like. It includes an optical fiber coupler body 7 and a filtration mechanism 8. The optical fiber coupler body 7, which is an instrument for performing a removable connection between optical fibers, is
It is fixed to the inverted Y-shaped fixed frame 6. The fixed frame 6 is fixed to the adjusting mechanism 3 for adjusting the angle of the protective mechanism 2. Then, the protective mechanism 2 for protecting the optical fiber coupler main body 7 is connected and provided to the adjusting mechanism 3. The adjustment mechanism 3 is provided with the suspension mechanism 4 for fixing. The suspension mechanism 4 is provided at one end of the adjusting mechanism 3 on the opposite side of the fixed frame 6. The sealing mechanism 5 for sealing optical fibers at both ends of the protection mechanism 2.
Is provided. At the bottom end of the protection mechanism 2, the filtration mechanism 8 for waste filtration and ventilate is provided. The drive mechanism 1 is provided at the bottom end of the protection mechanism 2. Then, the drive mechanism 1 is connected to the filtration mechanism 8.

The adjusting mechanism 3 includes a connecting block 31, a transmission shaft 32, a storage frame 33, a screw rod 34, a second gear 35, and a rack 36. The fixed frame 6 is vertically fixed to the bottom end of the storage frame 33. The two transmission shafts 32 penetrate the storage frame 33 so as to be rotatably connected to the inside of the storage frame 33. Two connection blocks 31 are symmetrically provided at both ends of the transmission shaft 32. The second gear 35 is fixed to the transmission shaft 32. The second gear 35 is provided inside the storage frame 33. The rack 36 and the transmission shaft 32 are perpendicular to each other. The rack 36 and the second gear 35 are in mesh with each other. The rotation directions of the two second gears 35 are opposite. The screw rod 34 having a regular hexagonal end is penetrated and connected to the storage frame 33 and the rack 36. The screw rod 34 and the storage frame 33 are rotatably connected to each other. Then, the screw rod 34 and the rack 36 are screw-connected.

The protective mechanism 2 includes a heat radiating groove 21, a protective sleeve 22, and a transmission block 23. Two of the connection blocks 31 on the same transmission shaft 32 are fixed to the same transmission block 23. The connection block 3 in the transmission block 23
The protective sleeve 2 for protecting the optical fiber coupler main body 7 at one end opposite to 1.
2 is provided. The two protective sleeves 22 are in contact with each other. The protective sleeve 22 having a hollow inside is provided with a plurality of heat dissipation grooves 21 used for heat dissipation. The protective sleeve 22 sandwiches the fixed frame 6.
The optical fiber coupler main body 7, which is an instrument for making a removable connection between optical fibers, is fixed to the fixed frame 6 having an inverted Y shape. The fixed frame 6
Is fixed to the adjusting mechanism 3 for adjusting the angle of the protective mechanism 2. and,
The protection mechanism 2 for protecting the optical fiber coupler main body 7 is connected to the adjustment mechanism 3. With this configuration, the protection mechanism 2 can be driven by the adjustment mechanism 3 so as not to seal the optical fiber coupler main body 7. Further, the suspension can be installed on the fixed frame 6 by hollowing out the optical fiber coupler main body 7. With such a configuration, inspection and maintenance of the optical fiber coupler main body 7 can be performed more comfortably. Specifically, when maintaining the optical fiber coupler main body 7 in the protective sleeve 22, the screw rod 34 may be rotated. In this case, the screw rod 34 causes the rack 36 to be on the side opposite to one end of the screw rod 34. The rack 36 slides inside the storage frame 33, and the rack 36 rotates the two second gears 35 at both ends.
Further, since the rotation directions of the two second gears 35 are opposite to each other, the two second gears 3
The two transmission shafts 32 are rotated by 5. By rotating the protective sleeve 22 via the connection block 31 by the transmission shaft 32, the distance between the two protective sleeves 22 is increased, and the optical fiber coupler main body 7 is connected by the protective sleeve 22. Make it unobstructed. Therefore, the inspection and maintenance of the optical fiber coupler main body 7 on the fixed frame 6 can be performed more comfortably. After the inspection and maintenance are completed, the screw rod 34 may be rotated in the opposite direction. In this case, the screw rod 3
The rack 36 is screw-driven by 4 to slide toward one end of the screw rod 34. Then, the rack 36 slides inside the storage frame 33, and the rack 36 rotates the two second gears 35 at both ends. Since the rotation directions of the two second gears 35 are opposite to each other, the two transmission shafts 32 are relatively rotated by the two second gears 35, and the connection is made by the transmission shaft 32. The protective sleeve 22 is rotated via the block 31. As a result, the distance between the two protective sleeves 22 is reduced until they conflict with each other, and the optical fiber coupler body 7 is shielded by the two protective sleeves 22. As a result, it is possible to effectively prevent dust and rain from coming into contact with the optical fiber coupler main body 7. Thereby, the inspection and maintenance of the optical fiber coupler main body 7 can be performed more comfortably.

The sealing mechanism 5 includes a sealing seal 51, a guide groove 52, a piston 53, and a transmission rod 54. Two pistons 53 are provided at both ends of the protective sleeve 22 so as to be slidably connected to each other. The piston 53 and the protective sleeve 2
The storage space between 2 communicates with the guide groove 52. The transmission rod 54, which is slidably connected to the piston 53, is provided at one end of the piston 53 on the opposite side of the guide groove 52. The transmission rod 54 is installed so as to come into contact with the other protective sleeve 22.
The ring-shaped sealing seal 51 having a storage space for storing a liquid and the protective sleeve 22 having the piston 53 are engaged with each other. Then, the sealing seal 51 and the guide groove 52 are engaged with each other. The sealing mechanism 5 for sealing the optical fiber is provided at both ends of the protection mechanism 2. When the protection mechanism 2 is closed by this, the sealing mechanism 5
The pressure of the liquid is increased to expand the sealing mechanism 5 to fix the optical fiber and the protection mechanism 2. Thereby, the connection between the optical fiber and the protection mechanism 2 can be made more airtight. With such a configuration, it is possible to effectively prevent rain, dust, etc. from entering the connection position between the optical fiber and the optical fiber coupler main body 7, and it is possible to significantly improve the stability of use. Specifically, when assembling the optical fiber, the two optical fibers are inserted into the two sealing seals 51, respectively, and when the two protective sleeves 22 come close to each other, one of the protective sleeves is used. The 22 is brought into contact with the transmission rod 54 on the other protective sleeve 22, and in that case, the piston 53 and the protective sleeve 22 are slid with each other by the thrust of the transmission rod 54, and the said. The space of the guide groove 52 is reduced. As a result, the oil liquid in the guide groove 52 is pushed out into the sealing seal 51, and the sealing seal 51 is pushed out and expanded. As a result, the sealing seal 51 and the optical fiber are closely adhered to each other. By closely adhering the sealing seal 51 and the protective sleeve 22 in this way, it is possible to effectively prevent rain, dust, etc. from entering the connection position between the optical fiber and the optical fiber coupler main body 7. Can be done, and the stability of use can be greatly improved.

The filtration mechanism 8 includes a first filtration net 81, a bottom plate 82, and a second filtration net 83. One bottom plate 82 is provided at the bottom end of each of the two protective sleeves 22. The first filtration net 81 and the second filtration net 83 are provided on the two bottom plates 82, respectively. The cross section of the second filtration net 83 is formed in a ripple shape.
The drive mechanism 1 includes a blade piece 11, a guide plate 12, a sleeve cylinder 13, a drive shaft 14, and a first drive mechanism 1.
It includes a gear 15, a pressing rod 16, and a connecting shaft 17. The bottom plate 82 to which the second filtration net 83 is fixed, the guide plate 12, the drive shaft 14, and the connection shaft 17 are provided on the same protective sleeve 22. The drive shaft 14 and the connection shaft 1
7 are rotatably connected between the protective sleeves 22. The sleeve cylinder 13 is fixed to the drive shaft 14. The sleeve cylinder 13 is provided with at least three blade pieces 11 along its circumferential direction. One first gear 15 is provided on each of the connecting shaft 17 and the drive shaft 14. The two first gears 15 are in mesh with each other. The diameter of the first gear 15 on the connecting shaft 17 is the drive shaft 14.
It is larger than the diameter of the first gear 15 in the above. The pressing rod 16 is fixed perpendicularly to the connecting shaft 17. The pressing rod 16 and the second filtration net 83 are in contact with each other. Then, the guide plate 12 on the protective sleeve 22 is installed in an inclined manner. At the bottom end of the protection mechanism 2, the filtration mechanism 8 for filtering waste and ventilating is provided. The drive mechanism 1 is provided at the bottom end of the protection mechanism 2. Then, the drive mechanism 1 is connected to the filtration mechanism 8. By providing the drive mechanism 1 in this way, the inflow and outflow of the airflow from the protection mechanism 2 can be limited to one direction, and the heat dissipation effect on the inside of the protection mechanism 2 is further improved. Further, since the filtration mechanism 8 can be driven by vibration by the drive mechanism 1, the clogging prevention effect of the filtration mechanism 8 can be improved and the intrusion of debris and the like into the protection mechanism 2 can be prevented. Specifically, when the wind blows, the wing piece 11 is blown by the wind, and the sleeve cylinder 13 is driven by the wing piece 11 to rotate the drive shaft 14. The rotation of the blade piece 11 creates an air flow in the direction toward the second filtration net 83. Therefore, air is allowed to enter the inside of the protective sleeve 22 through the second filtration net 83. Further, since the guide plate 12 is installed in an inclined manner, the airflow can be exhausted from the first filtration net 81 after entering from the second filtration net 83, so that the airflow is limited to one direction. You can control the entry and exit. Thereby, the heat dissipation effect on the optical fiber coupler main body 7 in the protective sleeve 22 can be improved. Further, since the first filtration net 81 and the second filtration net 83 are provided at the bottom end of the protective sleeve 22, it effectively prevents rain, dust, etc. from entering the inside of the protective sleeve 22. can do. By rotationally driving the first gear 15 on the connecting shaft 17 by the first gear 15 on the drive shaft 14, and the diameter of the first gear 15 on the connecting shaft 17 is the drive shaft 14. By making the diameter larger than the diameter of the first gear 15, the pressing rod 16 is driven by the connecting shaft 17, and the second filtration net 83 is further driven to deform and vibrate the second filtration net 83. Therefore, it is possible to effectively prevent the second filtration net 83 from being clogged with debris or the like.

The suspension mechanism 4 of the coupler includes a connecting rod 41, a position limiting rod 42, a pressing block 43, a rubber sleeve 44, a sandwiching block 45, and a return spring 46. One end of the connecting rod 41 having a U-shaped cross section is fixed to the storage frame 33. The pressure block 43 and the connection rod 41 are rotatably connected. The return spring 46 is provided between the pressing block 43 and the connecting rod 41. The position-limited rod 42 and the connecting rod 41 are screw-connected. The position limiting rod 42 and the pressure block 43 are in contact with each other. The pressure block 43 and the connecting rod 41 are each provided with one sandwiching block 45. The rubber sleeve 44 is provided between the two sandwiching blocks 45. The adjustment mechanism 3 is provided with the suspension mechanism 4 for fixing. The suspension mechanism 4 is provided at one end of the adjusting mechanism 3 on the opposite side of the fixed frame 6. By providing the suspension mechanism 4 in this way, the coupler can be connected to the steel wire, and the coupler can be comfortably attached and detached. That is, first, the position-limited rod 42 is rotated so that the position-limited rod 42 and the pressure block 43 do not conflict with each other. Next, by pressing the pressure block 43, the pressure block 43 and the connection rod 41 are rotated, and the return spring 46 is extended. Then, the two sandwiching blocks 45 are unfolded and the steel wire is arranged between the rubber sleeves 44 between the two sandwiching blocks 45. At this time, the pressing block 43 is loosened and the return is performed. The spring 4 is contracted, thereby rotating the pressing block 43 toward the rubber sleeve 44. Then, by rotating the position-limited rod 42, the position-limited rod 4
2 is brought into contact with the pressing block 43 to limit the position of the pressing block 43. In this way, the steel wire can be reliably sandwiched between the two sandwiching blocks 43, facilitating the fixing and removal of the coupler.

At the time of use, first, the position-limited rod 42 is rotated so that the position-limited rod 42 and the pressure block 43 do not conflict with each other. Next, by pressing the pressure block 43, the pressure block 43 and the connection rod 41 are rotated, and the pressure block 43 is rotated.
The return spring 46 is extended. Then, the two sandwiching blocks 45 are unfolded and the steel wire is arranged between the rubber sleeves 44 between the two sandwiching blocks 45. At this time, the pressing block 43 is loosened and the return is performed. The spring 4 is contracted, thereby rotating the pressing block 43 toward the rubber sleeve 44. Then, by rotating the position limiting rod 42, the position limiting rod 42 is brought into contact with the pressing block 43 to limit the position of the pressing block 43. In this way, the steel wire can be reliably sandwiched between the two sandwiching blocks 43, facilitating the fixing and removal of the coupler. When maintaining the optical fiber coupler main body 7 in the protective sleeve 22, the screw rod 34 may be rotated. In this case, the screw rod 34 slides the rack 36 to the side opposite to one end of the screw rod 34. Screw driven,
Then, the rack 36 slides inside the storage frame 33, and the rack 36 rotates the two second gears 35 at both ends. Further, since the rotation directions of the two second gears 35 are opposite to each other, the two transmission shafts 32 are rotated by the two second gears 35. The protective sleeve 22 is provided by the transmission shaft 32 via the connection block 31.
By rotating the guard sleeve 22, the distance between the two protective sleeves 22 is increased so that the protective sleeve 22 does not shield the optical fiber coupler main body 7. Therefore, the inspection and maintenance of the optical fiber coupler main body 7 on the fixed frame 6 can be performed.
It can be done more comfortably. After the inspection and maintenance are completed, the screw rod 34 is in the opposite direction.
In this case, the rack 36 is screw-driven by the screw rod 34 and slid toward one end of the screw rod 34. Then, the rack 36 slides inside the storage frame 33, and the rack 36 rotates the two second gears 35 at both ends. Since the rotation directions of the two second gears 35 are opposite to each other, the two transmission shafts 32 are relatively rotated by the two second gears 35, and the connection is made by the transmission shaft 32. The protective sleeve 22 is rotated via the block 31. by this,
The distance between the two protective sleeves 22 is reduced until they conflict with each other so that the two protective sleeves 22 shield the optical fiber coupler body 7. As a result, it is possible to effectively prevent dust and rain from coming into contact with the optical fiber coupler main body 7. Thereby, the inspection and maintenance of the optical fiber coupler main body 7 can be performed more comfortably. When assembling the optical fiber, the two optical fibers are inserted into the two sealing seals 51, respectively, and when the two protective sleeves 22 come close to each other, one of the protective sleeves 22 is inserted into the other. The piston 53 and the protective sleeve 22 are slid with each other by the thrust of the transmission rod 54, so that the space of the guide groove 52 is brought into contact with the transmission rod 54 on the protective sleeve 22. To make it smaller. As a result, the oil liquid in the guide groove 52 is pushed out into the sealing seal 51, and the sealing seal 51 is pushed out and expanded. As a result, the sealing seal 51 and the optical fiber are closely adhered to each other. In this way, the sealing seal 51 and the protective sleeve 2
By closely adhering 2 to the optical fiber, it is possible to effectively prevent rain, dust, etc. from entering the connection position between the optical fiber and the optical fiber coupler main body 7, and the stability of use can be greatly improved. .. When the wind blows, the wing piece 11 is blown by the wind, and the sleeve cylinder 13 is driven by the wing piece 11 to rotate the drive shaft 14. The rotation of the blade piece 11 creates an air flow in the direction toward the second filtration net 83. Therefore, air is allowed to enter the inside of the protective sleeve 22 through the second filtration net 83. Further, since the guide plate 12 is installed in an inclined manner, the airflow can be exhausted from the first filtration net 81 after entering from the second filtration net 83, so that the airflow is limited to one direction. You can control the entry and exit. Thereby, the heat dissipation effect on the optical fiber coupler main body 7 in the protective sleeve 22 can be improved. Further, since the first filtration net 81 and the second filtration net 83 are provided at the bottom end of the protective sleeve 22, it effectively prevents rain, dust, etc. from entering the inside of the protective sleeve 22. can do. By rotationally driving the first gear 15 on the connecting shaft 17 by the first gear 15 on the drive shaft 14, and the diameter of the first gear 15 on the connecting shaft 17 is the drive shaft 14.
By making the diameter larger than the diameter of the first gear 15 in the above, the pressing rod 16 is driven by the connecting shaft 17, and the second filtration net 83 is further driven to deform and vibrate the acting force. It can be secured sufficiently.

As described above, it is only a better specific embodiment of the present invention, and the scope of protection of the present invention is not limited thereto. An engineer familiar with the technical field of the present invention is within the technical scope disclosed by the present invention, and is within the scope of protection of the present invention which is equally substituted or modified in accordance with the technical proposal of the present invention and the concept of improvement thereof. It should be understood that it should be included in.

Claims (3)

It is an optical fiber coupler
Drive mechanism 1, protection mechanism 2, adjustment mechanism 3, suspension mechanism 4, sealing mechanism 5,
Includes a fixed frame 6, an optical fiber coupler body 7, and a filtration mechanism 8.
The optical fiber coupler body 7, which is an instrument for performing a removable connection between optical fibers, is fixed to the fixed frame 6 having an inverted Y shape, and the fixed frame 6 is the protection mechanism. The adjustment mechanism 3 is fixed to the adjustment mechanism 3 for adjusting the angle of 2, and the protection mechanism 2 for protecting the optical fiber coupler main body 7 is connected to the adjustment mechanism 3 and provided. Is provided with the suspension mechanism 4 for fixing, the suspension mechanism 4 is provided at one end of the adjusting mechanism 3 opposite to the fixed frame 6, and optical fibers are sealed at both ends of the protection mechanism 2. The sealing mechanism 5 is provided for this purpose, the filtration mechanism 8 for waste filtration or ventilation is provided at the bottom end of the protection mechanism 2, and the drive mechanism is provided at the bottom end of the protection mechanism 2. 1 is provided, and the drive mechanism 1 is connected to the filtration mechanism 8.
The adjusting mechanism 3 includes a connecting block 31, a transmission shaft 32, a storage frame 33, a screw rod 34, a second gear 35, and a rack 36.
The fixed frame 6 is vertically fixed to the bottom end of the storage frame 33, and two transmission shafts 32 penetrate through the storage frame 33 so as to be rotatably connected to the inside of the storage frame 33.
Two connecting blocks 31 are symmetrically provided at both ends of the transmission shaft 32, the second gear 35 is fixed to the transmission shaft 32, and the second gear 35 is the storage frame 33.
The rack 36 and the transmission shaft 32 are perpendicular to each other, the rack 36 and the second gear 35 are in mesh with each other, and the rotation directions of the two second gears 35 are different. The screw rod 34, which is opposite to each other and has a regular hexagonal end, is the storage frame 3.
3 and the rack 36 are penetrated and connected, the screw rod 34 and the storage frame 33 are rotatably connected, and the screw rod 34 and the rack 36 are screw-connected.
The protective mechanism 2 includes a heat radiating groove 21, a protective sleeve 22, and a transmission block 23.
Two of the connection blocks 31 on the same transmission shaft 32 are fixed to the same transmission block 23, and the optical fiber coupler main body 7 is attached to one end of the transmission block 23 opposite to the connection block 31. The protective sleeve 22 for protection is provided, and the two protective sleeves 22 are in contact with each other, and the protective sleeve 22 having a hollow inside is provided with a plurality of heat radiation grooves used for heat dissipation. 21 is provided, and the protective sleeve 22 sandwiches the fixed frame 6.
The filtration mechanism 8 includes a first filtration net 81, a bottom plate 82, and a second filtration net 83.
One bottom plate 82 is provided at the bottom end of each of the two protective sleeves 22, and 2
The first filtration net 81 and the second filtration net 83 are provided on the bottom plates 82, respectively, and the cross section of the second filtration net 83 is formed in a ripple shape.
The drive mechanism 1 includes a blade piece 11, a guide plate 12, a sleeve cylinder 13, a drive shaft 14, and a first drive mechanism 1.
The gear 15, the pressing rod 16, and the connecting shaft 17 are included.
The bottom plate 82 to which the second filtration net 83 is fixed, the guide plate 12, and the drive shaft 1
4 and the connecting shaft 17 are provided on the same protective sleeve 22, and the drive shaft 14 and the connecting shaft 17 are both rotatably connected between the protective sleeves 22. The sleeve cylinder 13 is fixed to the drive shaft 14, and at least three of the wing pieces 11 are provided on the sleeve cylinder 13 along the circumferential direction thereof, and the connecting shaft 17 and the drive shaft 14, respectively. One of the first gears 15 is provided, two of the first gears 15 are in mesh with each other, and the diameter of the first gear 15 on the connecting shaft 17 is the diameter of the first gear on the drive shaft 14. The pressing rod 16 is larger than the diameter of 15 and is fixed perpendicularly to the connecting shaft 17, the pressing rod 16 and the second filtration net 83 are in contact with each other, and the guide plate on the protective sleeve 22 is provided. An optical fiber coupler characterized in that 12 is installed at an angle with respect to the protective sleeve 22. The sealing mechanism 5 includes a sealing seal 51, a guide groove 52, a piston 53, and a transmission rod 54.
And, including
The two pistons 5 are slidably connected to both ends of one of the protective sleeves 22.
3 is provided, and the storage space between the piston 53 and the protective sleeve 22 communicates with the guide groove 52, and is slidably connected to one end of the piston 53 opposite to the guide groove 52. The transmission rod 54 is provided, and the transmission rod 54 is installed so as to come into contact with the other protective sleeve 22, and the ring-shaped sealing seal 51 having a storage space for storing a liquid and the said. The optical fiber coupler according to claim 1, wherein the protective sleeve 22 of the piston 53 is engaged, and the sealing seal 51 and the guide groove 52 are engaged. The suspension mechanism 4 of the coupler includes a connecting rod 41, a position limiting rod 42, a pressing block 43, a rubber sleeve 44, a sandwiching block 45, and a return spring 46.
One end of the connecting rod 41 having a U-shaped cross section is fixed to the storage frame 33, and the pressure block 43 and the connecting rod 41 are rotatably connected to the pressing block 43 and the said. The return spring 46 is provided between the connection rod 41, and the position-limited rod 42 and the connection rod 41 are screw-connected so that the position-limited rod 4 is connected.
2 and the pressure block 43 are in contact with each other, and one sandwich block 45 is provided on each of the pressure block 43 and the connection rod 41, and the rubber sleeve is provided between the two sandwich blocks 45. The optical rubber according to claim 1, wherein 44 is provided.
Iba coupler .

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