CN108761676A - A kind of porous optical fiber communication tube - Google Patents

Abstract

The invention discloses a kind of porous optical fiber communication tubes, including the first pipe, the second pipe, first connecting portion, second connecting portion and multiple connecting ropes, first connecting portion is fixedly connected with first pipe, second connecting portion is fixedly connected with second pipe, first pipe includes the first protecting tube, the first inner sleeve and multiple first penetration pipes being arranged in the first inner sleeve, and the second pipe includes the second protecting tube, the second inner sleeve and multiple second penetration pipes being arranged in the second inner sleeve；Multiple connecting ropes are used to connection first connecting portion and second connecting portion, and first connecting portion has multiple the first jacks in several rows of row and multiple the second jacks in several rows of row；Second connecting portion has multiple the first insertion sections in several rows of row and multiple the second insertion sections in several rows of row.The quantity for the optical fiber that the communication tube of the present invention can be worn is more, and hangs conveniently.

Description

A kind of porous optical fiber communication tube

Technical field

The present invention relates to tubing fields, and in particular to a kind of porous optical fiber communication tube.

Background technology

With the development of optical fiber technology, more and more cell inner ply fibers, since optical fiber is easily damaged, it is therefore desirable to Optical fiber is threaded through in pipeline, to protect optical fiber to be hardly damaged.Existing fiber optic communication pipe, perforation there are one some, from And the number of fibers that can be worn is few, it is not independent each other when wearing multiple optical fiber.And communication tube is hung on steel strand wires When upper, it has not been convenient to and hang insecure.

Invention content

Goal of the invention：The present invention is directed to overcome the deficiencies of existing technologies, a kind of porous optical fiber communication tube is provided.

Technical solution：A kind of pipe, including the first pipe, the second pipe, first connecting portion, second connecting portion and multiple connecting ropes, The first connecting portion is fixedly connected with first pipe, and the second connecting portion is fixedly connected with second pipe, and described One pipe includes the first protecting tube, the first inner sleeve and multiple first penetration pipes being arranged in first inner sleeve, and described the Two pipes include the second protecting tube, the second inner sleeve and multiple second penetration pipes being arranged in second inner sleeve；It is described more A connecting rope is used to connect the first connecting portion and second connecting portion, and it is in several rows of row that the first connecting portion, which has multiple, The first jack and multiple the second jacks in several rows of row, first jack include the first spherical pore and the first connecting hole, First connecting hole connects the surface of first spherical pore and first connecting portion, and second jack includes the second spherical pore With the second connecting hole, second connecting hole connects the surface of second spherical pore and first connecting portion；Second connection Portion has multiple the first insertion sections in several rows of row and multiple the second insertion sections in several rows of row, the first insertion section packet The first spherical portion and the first connecting pole are included, first connecting pole is for connecting first spherical portion and the second connecting portion Surface, second insertion section includes the second spherical portion and the second connecting pole, and second connecting pole is for connecting described the The surface of two spherical portions and the second connecting portion, first and second spherical portion are made of elastic material, and described first is spherical Portion is inserted into first spherical pore, and second spherical portion is inserted into second spherical pore, first spherical pore, Second spherical pore, the first spherical portion, the quantity of the second spherical portion and connecting rope are equal.

Further, the section of first connecting hole is circle, and the radius of first connecting hole is less than described first The radius of spherical pore；The section of second connecting hole is circle, and the radius of second connecting hole is less than second spherical shape The radius in hole.

Further, the section of first and second connecting pole is circle, and the radius of first connecting pole is equal to described The radius of first connecting hole, the radius of second connecting pole are equal to the radius of second connecting hole.

Further, the first connecting portion has multiple in the first recessed of several rows of row in face of the surface of second connecting portion Slot, the second connecting portion have multiple the second grooves in several rows of row in face of the surface of the first connecting portion, and described the One, the quantity of two grooves is equal, and the blind end of first groove is provided with pressure sensor, the blind end of second groove It is fixed with fixed block, one end of the fixed block connection compressed spring, the other end of the compressed spring is connected with briquetting, each Briquetting is for abutting a pressure sensor；Also there is mounting groove, the first interface channel and the in the first connecting portion Two interface channels, are equipped with controller and wireless communication unit in the mounting groove, first interface channel and all the One groove is connected to, and second interface channel is for being connected to the first interface channel and the mounting groove, in each first groove Pressure sensor connect by conducting wire with the controller.

Further, the controller is controlled, when the measured value of the pressure sensor of setting quantity or more is less than Given threshold, then unit sends alarm signal by radio communication.

Further, when the value of N/M is more than percentage setting value, controller controls wireless communication unit and sends alarm signal Number；The N is the number for the pressure sensor that measured value is less than given threshold, and the M is the pressure being connect with the controller The total quantity of sensor.

Further, the controller is controlled, when there are the measured value of continuous 5 or more pressure sensors is small When the case where given threshold, make the wireless communication unit transmitting alarm signal.

Further, the first adjacent jack spacing is equal, the first equal, adjacent groove of the first adjacent groove spacing The distance between be more than or equal to 2 times of the distance between first adjacent jack.

Further, the quantity of first and second penetration pipe is 6, and the first all penetration pipes is with described first Inner sleeve is fixedly connected, and is fixedly connected between the first adjacent penetration pipe, the second all penetration pipes with described second in Casing is fixedly connected, and is fixedly connected between the second adjacent penetration pipe.

Further, first protecting tube, the first inner sleeve, the first penetration pipe, the second protecting tube, the second inner sleeve, Second penetration pipe is the molding of PE material injections.

Further, when the value of N/M is more than percentage setting value, or when there are continuous 5 or more pressure biographies When the measured value of sensor is less than the case where given threshold, controller controls wireless communication unit and sends alarm signal；The N is to survey Magnitude is less than the number of the pressure sensor of given threshold, and the M is the sum for the pressure sensor being connect with the controller Amount.

Advantageous effect：The fiber optic communication pipe of the present invention, including the first pipe and the second pipe, and each there is in pipe multiple wear Spool, the number of fibers that can be worn is big, and the fiber optic communication pipe can be easily hung on steel strand wires, to make With conveniently.

Description of the drawings

When Fig. 1 first connecting portions and second connecting portion are closed, fiber optic communication pipe schematic diagram；

When Fig. 2 is that the first and second interconnecting piece is opened, fiber optic communication pipe schematic diagram；

Fig. 3 is first connecting portion schematic diagram；

Fig. 4 is second connecting portion schematic diagram.

Specific implementation mode

Reference numeral：1 connecting rope；2 steel strand wires；11 first connecting portions；12.1 the first protecting tube；12.2 the first inner sleeve； 12.3 the first penetration pipe；11.1.1 the first spherical pore；11.1 the first connecting hole；11.2 the second connecting hole；12.2.1 second is spherical Hole；11.3 pressure sensors；11.4 the first groove；11.5 the first interface channel；11.6 the second interface channel；11.7 mounting grooves； 11.7.1 controller；11.7.2 wireless communication device；21 second connecting portions；21.1 the first connecting pole；21.1.1 the first spherical portion； 21.2 the second connecting pole；21.2.1 the second spherical portion；21.3 fixed plates；21.4 compressed springs；21.5 pressing plates；21.6 second is recessed Slot；22.1 the second protecting tube；22.2 the second inner sleeve；22.3 the second penetration pipe.

A kind of fiber optic communication pipe, including the first pipe, the second pipe, first connecting portion, second connecting portion and multiple connecting ropes, institute First connecting portion 11 to be stated to be fixedly connected with first pipe, the second connecting portion is fixedly connected with second pipe, and described One pipe includes the first protecting tube 12.1, the first inner sleeve 12.2 and multiple first penetration pipes being arranged in first inner sleeve 12.3, second pipe includes the second protecting tube 22.1, the second inner sleeve 22.2 and is arranged more in second inner sleeve A second penetration pipe 22.3；The multiple connecting rope is used to connect the first connecting portion and second connecting portion 21, and described One interconnecting piece has multiple the first jacks in several rows of row and multiple the second jacks in several rows of row, the first jack packet The first spherical pore 11.1.1 and the first connecting hole 11.1 are included, first connecting hole connects first spherical pore and the first connection The surface in portion, second jack include the second spherical pore 11.2.1 and the second connecting hole 11.2, the second connecting hole connection The surface of second spherical pore and first connecting portion；The second connecting portion has multiple the first insertion sections in several rows of row With multiple the second insertion sections in several rows of row, first insertion section includes the first spherical portion 21.1.1 and the first connecting pole 21.1, first connecting pole is used to connect the surface of first spherical portion and the second connecting portion, and described second is inserted into Portion include the second spherical portion 21.2.1 and the second connecting pole 21.2, second connecting pole for connect second spherical portion and The surface of the second connecting portion, first and second spherical portion are made of elastic material, and first spherical portion is inserted into First spherical pore, second spherical portion are inserted into second spherical pore, first spherical pore, the second spherical shape Hole, the first spherical portion, the quantity of the second spherical portion and connecting rope are equal.

The section of first connecting hole is circle, and the radius of first connecting hole is less than the half of first spherical pore Diameter；The section of second connecting hole is circle, and the radius of second connecting hole is less than the radius of second spherical pore.Institute The section for stating the first and second connecting pole is circle, and the radius of first connecting pole is equal to the radius of first connecting hole, institute The radius for stating the second connecting pole is equal to the radius of second connecting hole.The first connecting portion faces the surface of second connecting portion With multiple the first grooves 11.4 in several rows of row, the second connecting portion has more in face of the surface of the first connecting portion A the second groove 21.6 in several rows of row, the quantity of first and second groove is equal, the blind end setting of first groove There are pressure sensor 11.3, the blind end of second groove to be fixed with fixed block 21.3, the fixed block connects compressed spring The other end of 21.4 one end, the compressed spring is connected with briquetting 21.5, and each briquetting is passed for abutting the pressure Sensor；Also there is mounting groove 11.7, the first interface channel 11.5 and the second interface channel 11.6 in the first connecting portion, it is described Controller and wireless communication unit are installed, first interface channel is connected to the first all grooves, institute in mounting groove State the second interface channel for be connected to the first interface channel and mounting groove, pressure sensor in each first groove with The controller is connected by conducting wire.The first adjacent jack spacing is equal, and the first adjacent groove spacing is equal, and adjacent The distance between one groove is more than or equal to 2 times of the distance between first adjacent jack.The quantity of first and second penetration pipe It it is 6, the first all penetration pipes is fixedly connected with first inner sleeve, and fixed between the first adjacent penetration pipe Connection, the second all penetration pipes are fixedly connected with second inner sleeve, and fixed company between the second adjacent penetration pipe It connects.First protecting tube, the first inner sleeve, the first penetration pipe, the second protecting tube, the second inner sleeve, the second penetration pipe are PE material injections are molded.First and second interface channel is for wearing conducting wire.

The controller is controlled, when setting quantity or more pressure sensor measured value less than given threshold, Then unit sends alarm signal by radio communication.When setting the measured value of pressure sensor of quantity less than given threshold, Show that loosening occurs in more place, therefore warning reminding is safeguarded.

When the value of N/M is more than percentage setting value, controller controls wireless communication unit and sends alarm signal；The N It is less than the number of the pressure sensor of given threshold for measured value, the M is the pressure sensor being connect with the controller Total quantity.Assuming that there is 1000 pressure sensors, only 10 measured values are less than given threshold, it should it is less problematic, if only There are 100 pressure sensors, just there are 10 measured values to be less than given threshold, then it is possible that problem, therefore passes through percentage Judge more science.

The controller is controlled, when there are the measured values of continuous 5 or more pressure sensors to be less than setting threshold When the case where value, make the wireless communication unit transmitting alarm signal.When only there are one or continuous two pressure sensors When measured value is less than given threshold, illustrate that the length loosened at this is also shorter, it is less problematic, when adjacent continuous 5 pressure When the measured value of sensor is respectively less than given threshold, illustrate that the length loosened is long, it is likely that go wrong, therefore and Times It is alert, it reminds and safeguards.

The fiber optic communication pipe of the present invention has the first pipe and the second pipe, multiple threading is all had in first and second pipe Pipe, the quantity of the optical fiber so as to wear are more.When installation, empty steel strand wires are hung on wall or electric pole, as shown in Figure 1, by the One, two pipes are located at the both sides of steel strand wires, and first connecting portion and second connecting portion pass through the first spherical portion, the first spherical shape Hole, the second spherical portion are connected with the second spherical pore, since the first and second spherical portion all has elasticity, are depressed, peace Dress is convenient.When under normal circumstances, when the first spherical portion and the engagement of the first spherical pore and the second spherical portion and the second spherical pore engage, For pressure sensor under the extruding of compressed spring, measured value is more than given threshold.When the first spherical portion is detached from from the first spherical pore And/or second spherical portion when being detached from from the second spherical pore, the case where measured value of pressure sensor will appear less than given threshold. Controller can send remote alarm signal according to the measured value of multiple pressure sensors, and maintenance personnel is reminded to safeguard in time.When When the case where setting, warning reminding is safeguarded.

Although the present invention is illustrated and has been described with regard to preferred embodiment, it is understood by those skilled in the art that Without departing from scope defined by the claims of the present invention, variations and modifications can be carried out to the present invention.

Claims (10)

1. a kind of porous optical fiber communication tube, which is characterized in that including the first pipe, the second pipe, first connecting portion, second connecting portion and Multiple connecting ropes, the first connecting portion are fixedly connected with first pipe, and the second connecting portion is fixed with second pipe Connection, first pipe includes the first protecting tube, the first inner sleeve and what is be arranged in first inner sleeve multiple first wear Spool, second pipe includes the second protecting tube, the second inner sleeve and what is be arranged in second inner sleeve multiple second wear Spool；The multiple connecting rope is used to connect the first connecting portion and second connecting portion, and the first connecting portion has more A the first jack in several rows of row and multiple the second jacks in several rows of row, first jack include the first spherical pore and First connecting hole, first connecting hole connect the surface of first spherical pore and first connecting portion, the second jack packet The second spherical pore and the second connecting hole are included, second connecting hole connects the surface of second spherical pore and first connecting portion； The second connecting portion has multiple the first insertion sections in several rows of row and multiple the second insertion sections in several rows of row, described First insertion section includes the first spherical portion and the first connecting pole, and first connecting pole is for connecting first spherical portion and institute The surface of second connecting portion is stated, second insertion section includes the second spherical portion and the second connecting pole, and second connecting pole is used In the surface for connecting second spherical portion and the second connecting portion, first and second spherical portion is made of elastic material, First spherical portion is inserted into first spherical pore, and second spherical portion is inserted into second spherical pore, institute The quantity for stating the first spherical pore, the second spherical pore, the first spherical portion, the second spherical portion and connecting rope is equal.

2. porous optical fiber communication tube according to claim 1, which is characterized in that the section of first connecting hole is circle Shape, the radius of first connecting hole are less than the radius of first spherical pore；The section of second connecting hole is circle, institute The radius for stating the second connecting hole is less than the radius of second spherical pore.

3. porous optical fiber communication tube according to claim 1, which is characterized in that the section of first and second connecting pole is equal For circle, the radius of first connecting pole is equal to the radius of first connecting hole, and the radius of second connecting pole is equal to The radius of second connecting hole.

4. porous optical fiber communication tube according to claim 1, which is characterized in that the first connecting portion is in face of the second connection There is multiple the first grooves in several rows of row, the second connecting portion to have in face of the surface of the first connecting portion on the surface in portion There are multiple the second grooves in several rows of row, the quantity of first and second groove is equal, the blind end setting of first groove There are pressure sensor, the blind end of second groove to be fixed with fixed block, one end of the fixed block connection compressed spring, institute The other end for stating compressed spring is connected with briquetting, and each briquetting is for abutting a pressure sensor；First connection Also there is mounting groove, the first interface channel and the second interface channel in portion, controller and channel radio are installed in the mounting groove Believe that unit, first interface channel are connected to the first all grooves, second interface channel connects for being connected to first Road and the mounting groove are connected, the pressure sensor in each first groove is connect with the controller by conducting wire.

5. porous optical fiber communication tube according to claim 4, which is characterized in that the controller is controlled, and setting is worked as When the measured value of the pressure sensor of quantity or more is less than given threshold, then unit sends alarm signal by radio communication.

6. porous optical fiber communication tube according to claim 4, which is characterized in that when the value of N/M is more than percentage setting value When, controller controls wireless communication unit and sends alarm signal；The N is the pressure sensor that measured value is less than given threshold Number, the M are the total quantity for the pressure sensor being connect with the controller.

7. porous optical fiber communication tube according to claim 4, which is characterized in that the controller is controlled, and presence is worked as When the measured value of continuous 5 or more pressure sensors is less than the case where given threshold, the wireless communication unit is made to emit Alarm signal.

8. porous optical fiber communication tube according to claim 1, which is characterized in that the first adjacent jack spacing is equal, phase The first adjacent groove spacing is equal, and the distance between first adjacent groove is more than or equal to adjacent the distance between the first jack 2 times.

9. porous optical fiber communication tube according to claim 1, which is characterized in that the quantity of first and second penetration pipe is equal It it is 6, the first all penetration pipes is fixedly connected with first inner sleeve, and fixed company between the first adjacent penetration pipe It connects, the second all penetration pipes is fixedly connected with second inner sleeve, and is fixedly connected between the second adjacent penetration pipe.

10. porous optical fiber communication tube according to claim 1, which is characterized in that first protecting tube, the first inner sleeve Pipe, the first penetration pipe, the second protecting tube, the second inner sleeve and the second penetration pipe are the molding of PE material injections.