CN106019513B - Optical fiber cable factice spraying system capable of intelligently adjusting spraying amount - Google Patents

Abstract

The invention discloses an optical fiber cable factice spraying system capable of intelligently adjusting spraying amount, which comprises an oil conveying pipe, a first oil return pipe, an oil inlet pipe, a PLC (programmable logic controller) control module, a factice pushing mechanism and an image recognition module, wherein the oil conveying pipe is connected with the first oil return pipe; the PLC control module is connected with the variable frequency motor, the electromagnetic valve, the image recognition module and the servo motor, and receives a real-time pressure value signal of a spray head ointment from a pressure sensor of the digital display intelligent pressure gauge; when the ointment track in the actual ointment track image is too narrow, the PLC control module controls the variable frequency motor to accelerate through the frequency converter, and the rotating speed of the screw pump is accelerated to output and increase until the track tends to a set pattern; when the ointment track in the ointment track image is too wide, the PLC control module controls the variable frequency motor to decelerate through the frequency converter. The invention realizes automatic judgment of oil output and maintenance of the oil output at a stable value, realizes automatic increase and decrease of factice, and ensures the uniformity of the applied factice.

Description

Optical fiber cable factice spraying system capable of intelligently adjusting spraying amount

Technical Field

The invention relates to the field of factice spraying, in particular to an optical fiber cable factice spraying system capable of intelligently adjusting spraying amount.

Background

Fiber optic cables are manufactured to meet optical, mechanical, or environmental performance specifications and are telecommunication cable assemblies that are used individually or in groups using one or more optical fibers disposed in a covering jacket as the transmission medium. The optical cable generally comprises a cable core, a reinforcing steel wire, a filler, a sheath and other parts, and further comprises a waterproof layer, a buffer layer, an insulated metal wire and other components according to requirements.

In the long-term use process of the optical cable, the transmission performance of the optical cable is deteriorated or even cannot be used due to the infiltration of moisture and humidity. In the process of manufacturing communication optical cables, people pay attention to waterproof methods and waterproof materials for optical fiber cables. In order to prevent the invasion of moisture and the damage of optical fibers caused by mutual friction of the optical fibers in the process of manufacturing the optical cable, optical cable grease is required to be filled in gaps of the optical cable, and the optical fiber grease is required to be coated on the optical fibers, so that the good mechanical performance of the optical fibers is ensured, and the service life of the optical fibers is prolonged. The ointment filled in the optical fiber loose tube, commonly called optical fiber ointment, is one of the materials which have the greatest influence on the optical fiber performance in the current layer-stranded and central tube type communication optical cables. It is generally believed that the optical fiber ointment has two protective functions of preventing moisture invasion and mechanically buffering the optical fiber.

The optical cable with metal tape armor consists of a cable core, proper water-blocking measures, a double-faced film-coated steel/aluminum tape and a polyethylene sheath, wherein the outer surface of the optical cable is longitudinally wrapped with the double-faced film-coated steel/aluminum tape, and the structure for longitudinally blocking water and moisture of the optical cable consists of two parts, one part is used for blocking water of the cable core, and the other part is used for blocking water of the overlapped part of a steel tape or an aluminum tape. When the optical cable is armored by steel/aluminum strips, in order to improve the water-blocking performance of the optical cable, a layer of solid glue which is melted when heated or water-swelling water-blocking ointment is continuously applied to the lap joint of the optical cable. In actual production, however, the location and amount of hot melt adhesive or water-blocking ointment applied to the edges of the metal strip is difficult to achieve at best. In order to ensure sealing during production, the application amount is only increased, and as a result, ointment overflows when the steel/aluminum strip is longitudinally wrapped, which is not beneficial to production.

Disclosure of Invention

The invention provides an optical fiber cable factice spraying system capable of intelligently adjusting spraying amount, which realizes automatic judgment of oil output and maintenance of the oil output at a stable value, realizes automatic increase and decrease of factice, ensures the uniformity of the applied factice, and improves the yield and the reliability of performance of products.

In order to achieve the purpose, the invention adopts the technical scheme that: an optical fiber cable factice spraying system capable of intelligently adjusting spraying amount comprises a carrier, a support frame, an oil supply pipeline, an oil storage tank, an oil conveying pipe, a first oil return pipe, an oil inlet pipe, a PLC (programmable logic controller) control module, a factice pushing mechanism and an image recognition module, wherein the image recognition module is used for collecting image information of a metal belt and a factice spraying track on the surface of the metal belt;

the ointment pushing mechanism is connected to a first port of the three-way joint through an oil conveying pipe, a second port of the three-way joint is connected to a spray head through an oil inlet pipe, the carrier is located under the spray head, a third port of the three-way joint is connected to the oil storage tank through a first oil return pipe, two linear rails are fixed on the upper surface of the support frame and embedded into grooves of a sliding block fixed on the lower surface of the moving plate, a front baffle and a rear baffle are respectively arranged at the front end and the rear end of the support frame, a lead screw embedded with a nut is installed between the front baffle and the rear baffle, a servo motor is installed at one end of the lead screw, and the nut is fixed on the lower surface of the moving plate;

the ointment pushing mechanism further comprises a variable frequency motor, a worm and gear reduction box and a screw pump, the oil storage tank is arranged on the screw pump, and the output end of the screw pump is connected to an oil conveying pipe;

the oil supply pipeline is provided with an electromagnetic valve, the PLC control module is connected with the variable frequency motor, the electromagnetic valve, the image recognition module and the servo motor, the PLC control module receives a spray head factice real-time pressure value signal from a pressure sensor of the digital display intelligent pressure gauge, when the pressure of the factice is lower than a set value, the PLC control module controls the variable frequency motor to accelerate, and when the pressure of the factice is higher than the set value, the PLC control module controls the variable frequency motor to decelerate;

the PLC control module receives the factice spraying track image information on the surface of the metal belt from the image recognition module, compares the factice spraying track image information with a reference factice spraying track image, when the factice track is too narrow in the actual factice track image, the PLC control module controls the variable frequency motor to accelerate through the frequency converter, the rotating speed of the screw pump is accelerated to output and increase until the track tends to a set pattern; when the ointment track in the ointment track image is too wide, the PLC control module controls the variable frequency motor to reduce the speed through the frequency converter, and the rotating speed of the screw pump is reduced, so that the output is reduced until the track tends to a set pattern; when the ointment track in the ointment track image deviates to set a track, the PLC control module controls the servo motor to rotate forwards or backwards, and the servo motor drives the spray head to move until the track tends to set a pattern.

The further improved technical scheme in the technical scheme is as follows:

1. in the scheme, the oil delivery pipe is provided with the ball valve.

2. In the above scheme, a second return pipe is positioned between the oil storage tank and the oil delivery pipe.

3. In the scheme, a display screen is connected to the image recognition module and used for displaying the ointment spraying track image in real time.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

1. the invention relates to a high-efficiency factice oil filling system for an optical fiber cable, wherein a spray head of the high-efficiency factice oil filling system is arranged at the front end of a moving plate, a digital display intelligent pressure gauge with a pressure sensor is arranged on the spray head, the factice pushing mechanism further comprises a variable frequency motor, a worm and gear reduction box and a screw pump, an oil storage tank is arranged on the screw pump, and the output end of the screw pump is connected to an oil conveying pipe; the oil supply pipeline is provided with an electromagnetic valve, the PLC control module is connected with the variable frequency motor, the electronic scale and the electromagnetic valve, the PLC control module receives a spray head factice real-time pressure value signal from a pressure sensor of the digital display intelligent pressure gauge, when the pressure of the factice is lower than a set value, the PLC control module controls the variable frequency motor to accelerate, and when the pressure of the factice is higher than the set value, the PLC control module controls the variable frequency motor to decelerate; the oil output is automatically judged and maintained at a stable value, the ointment is automatically increased or decreased, the uniformity of the applied ointment is ensured, and the yield and the performance reliability of the product are improved; and secondly, a second return pipe is positioned between the oil storage tank and the oil delivery pipe, and a third port of the tee joint is connected to the oil storage tank through the first return pipe, so that redundant output factice can flow back to the oil storage barrel, and the uniform and stable oil filling of the factice is realized.

2. The invention relates to a high-efficiency factice oil filling system for an optical fiber cable, wherein an image recognition module of the high-efficiency factice oil filling system is used for collecting a metal belt and factice spraying track image information positioned on the surface of the metal belt, a PLC (programmable logic controller) control module receives the factice spraying track image information from the surface of the metal belt of the image recognition module and compares the factice spraying track image information with a reference factice spraying track image to obtain size deviation data, and the PLC sends a command to a control motor to automatically adjust spraying amount according to the deviation data, so that automatic real-time deviation correction is realized, and the accuracy of a spraying position and the spraying amount is guaranteed.

3. The invention relates to a high-efficiency factice oil filling system for an optical fiber cable, wherein an factice pushing mechanism of the high-efficiency factice oil filling system is connected to a first port of a three-way joint through an oil conveying pipe, a second port of the three-way joint is connected to a spray head through an oil inlet pipe, a carrier is positioned right below the spray head, a third port of the three-way joint is connected to an oil storage tank through a first oil return pipe, two line rails are fixed on the upper surface of a support frame, the line rails are embedded into grooves of a sliding block fixed on the lower surface of a moving plate, the front end and the rear end of the support frame are respectively provided with a front baffle plate and a rear baffle plate, a lead screw embedded with a nut is arranged between the front baffle plate and the rear baffle plate, one end of the lead screw is provided with a servo motor, and the nut is fixed on the lower surface of the moving plate; the application amount of oleamen can be controlled, the oleamen is evenly smeared at the edge position of the metal strip, the positions of the spray head and the metal strip can be conveniently adjusted, the accuracy of the spraying position is guaranteed, and the spraying operation of the metal strips with different widths can be realized.

Drawings

FIG. 1 is a schematic structural diagram of an optical fiber cable factice spraying system capable of intelligently adjusting spraying amount according to the invention;

FIG. 2 is a schematic view of a portion of the structure of FIG. 1;

FIG. 3 is an electrical schematic diagram of the optical fiber cable factice spraying system of the present invention;

fig. 4 is another electrical schematic diagram of the optical fiber cable ointment spraying system of the present invention.

In the above drawings: 1. a carrier; 2. a support frame; 3. an oil supply conduit; 4. an oil storage tank; 6. an oil delivery pipe; 7. a first oil return pipe; 10. an ointment pushing mechanism; 101. a variable frequency motor; 102. a worm gear reduction box; 103. a screw pump; 11. a three-way joint; 19. a digital display intelligent pressure gauge; 25. an image recognition module; 26. a servo motor; 27. and a display screen.

Detailed Description

The invention is further described below with reference to the following figures and examples:

example 1: an optical fiber cable ointment spraying system capable of intelligently adjusting spraying amount comprises a carrier 1, a support frame 2, an oil supply pipeline 3, an oil storage tank 4, an oil conveying pipe 6, a first oil return pipe 7, an oil inlet pipe, a PLC (programmable logic controller) control module, an ointment pushing mechanism 10 and an image recognition module 25, wherein the image recognition module 25 is used for collecting a metal belt and ointment spraying track image information on the surface of the metal belt;

the ointment pushing mechanism 10 is connected to a first port of a three-way joint 11 through an oil conveying pipe 6, a second port of the three-way joint 11 is connected to a spray head through an oil inlet pipe, the carrier 1 is located right below the spray head, a third port of the three-way joint 11 is connected to the oil storage tank 4 through a first oil return pipe 7, two line rails are fixed on the upper surface of the support frame 2 and embedded into grooves of a sliding block fixed on the lower surface of the moving plate, a front baffle and a rear baffle are respectively arranged at the front end and the rear end of the support frame 2, a lead screw embedded with a nut is arranged between the front baffle and the rear baffle, a servo motor 26 is installed at one end of the lead screw, and the nut is fixed on the lower surface of the moving plate;

the spray head is arranged at the front end of the moving plate, a digital display intelligent pressure gauge 19 with a pressure sensor is arranged on the spray head, the ointment pushing mechanism 10 further comprises a variable frequency motor 101, a worm and gear reduction box 102 and a screw pump 103, the oil storage tank 4 is arranged on the screw pump 103, and the output end of the screw pump 103 is connected to the oil conveying pipe 6;

the oil supply pipeline 3 is provided with an electromagnetic valve, the PLC control module is connected with the variable frequency motor 101, the electromagnetic valve, the image recognition module 25 and the servo motor 26, the PLC control module receives a spray head factice real-time pressure value signal from a pressure sensor of the digital display intelligent pressure gauge 19, when the factice pressure is lower than a set value, the PLC control module controls the variable frequency motor 101 to accelerate, and when the factice pressure is higher than the set value, the PLC control module controls the variable frequency motor 101 to decelerate;

the PLC control module receives the factice spraying track image information from the metal belt surface of the image recognition module 25, compares the factice spraying track image information with a reference factice spraying track image, when the factice track is too narrow in the actual factice track image, the PLC control module controls the variable frequency motor 101 to accelerate through the frequency converter, the rotating speed of the screw pump 103 is accelerated to output and increase until the track tends to a set pattern; when the ointment track in the ointment track image is too wide, the PLC control module controls the variable frequency motor 101 to decelerate through the frequency converter, and the rotating speed of the screw pump 103 is slowed down to reduce output until the track tends to a set pattern; when the ointment track in the ointment track image deviates to set a track, the PLC control module controls the servo motor 26 to rotate forwards or backwards, and the servo motor drives the spray head to move until the track tends to set a pattern.

A display screen 27 is connected to the image recognition module 25 for displaying the ointment spray trajectory image in real time.

Example 2: an optical fiber cable factice spraying system capable of intelligently adjusting spraying amount comprises a carrier 1, a support frame 2, an oil supply pipeline 3, an oil storage tank 4, an oil conveying pipe 6, a first oil return pipe 7, an oil inlet pipe, a PLC (programmable logic controller) control module, a factice pushing mechanism 10 and an image recognition module 25, wherein the image recognition module 25 is used for collecting metal strips and factice spraying track image information on the surfaces of the metal strips;

the ointment pushing mechanism 10 is connected to a first port of a three-way joint 11 through an oil conveying pipe 6, a second port of the three-way joint 11 is connected to a spray head through an oil inlet pipe, the carrier 1 is located right below the spray head, a third port of the three-way joint 11 is connected to the oil storage tank 4 through a first oil return pipe 7, two line rails are fixed on the upper surface of the support frame 2 and embedded into grooves of a sliding block fixed on the lower surface of the moving plate, a front baffle and a rear baffle are respectively arranged at the front end and the rear end of the support frame 2, a lead screw embedded with a nut is arranged between the front baffle and the rear baffle, a servo motor 26 is installed at one end of the lead screw, and the nut is fixed on the lower surface of the moving plate;

the spray head is arranged at the front end of the moving plate, a digital display intelligent pressure gauge 19 with a pressure sensor is arranged on the spray head, the ointment pushing mechanism 10 further comprises a variable frequency motor 101, a worm and gear reduction box 102 and a screw pump 103, the oil storage tank 4 is arranged on the screw pump 103, and the output end of the screw pump 103 is connected to the oil conveying pipe 6;

the oil supply pipeline 3 is provided with an electromagnetic valve, the PLC control module is connected with the variable frequency motor 101, the electromagnetic valve, the image recognition module 25 and the servo motor 26, the PLC control module receives a real-time pressure value signal of the spray head factice from a pressure sensor of the digital display intelligent pressure gauge 19, when the factice pressure is lower than a set value, the PLC control module controls the variable frequency motor 101 to accelerate, and when the factice pressure is higher than the set value, the PLC control module controls the variable frequency motor 101 to decelerate;

the PLC control module receives the factice spraying track image information from the metal belt surface of the image recognition module 25, compares the factice spraying track image information with a reference factice spraying track image, when the factice track in the actual factice track image is too narrow, the PLC control module controls the variable frequency motor 101 to accelerate through the frequency converter, and the rotating speed of the screw pump 103 is accelerated to output and increase until the track tends to a set pattern; when the ointment track in the ointment track image is too wide, the PLC control module controls the variable frequency motor 101 to decelerate through the frequency converter, and the rotating speed of the screw pump 103 is slowed down to reduce output until the track tends to a set pattern; when the ointment track in the ointment track image deviates to set a track, the PLC control module controls the servo motor 26 to rotate forwards or backwards, and the servo motor drives the spray head to move until the track tends to set a pattern.

The oil delivery pipe 6 is provided with a ball valve.

A second return line is located between the oil reservoir 4 and the oil delivery line 6.

When the optical fiber cable factice spraying system capable of intelligently adjusting the spraying amount is adopted, when the factice pressure is lower than a set value, the PLC control module controls the variable frequency motor to accelerate, and when the factice pressure is higher than the set value, the PLC control module controls the variable frequency motor to decelerate; the oil output is automatically judged and maintained at a stable value, the ointment is automatically increased and decreased, the uniformity of the applied ointment is ensured, and the yield and the performance reliability of the product are improved; secondly, a second return pipe is positioned between the oil storage tank and the oil delivery pipe, and a third port of the tee joint is connected to the oil storage tank through the first return pipe, so that redundant output factice can flow back to the oil storage barrel, and uniform and stable oil filling of the factice is realized; secondly, the PLC control module receives an ointment quantity signal stored in an oil tank of a weighing sensor of the electronic scale, when the ointment pressure is lower than a set value, the PLC control module controls the electromagnetic valve to be opened, and when the ointment pressure is higher than the set value, the PLC control module controls the electromagnetic valve to be closed, so that the full automation of oil storage and oil supply is realized, the ointment storage quantity in the oil storage barrel is maintained, the ointment quantity in the oil storage barrel can be automatically judged, automatic oil supplement and oil supplement stop can be realized according to the ointment storage quantity, the operation of the motor is controlled to protect a hydraulic pump, and unmanned intelligent operation is realized; thirdly, can control the application volume of oleamen, with even the smearing of oleamen border position to the position of the regulation shower nozzle that can be convenient and strap guarantees the accuracy of spraying position, can realize the spraying operation to the strap of different width.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (2)

1. The utility model provides an optical fiber cable oleamen spraying system of intelligent regulation spraying volume which characterized in that: the device comprises a carrier (1), a support frame (2), an oil supply pipeline (3), an oil storage tank (4), an oil delivery pipe (6), a first oil return pipe (7), an oil inlet pipe, a PLC (programmable logic controller) control module, an ointment pushing mechanism (10) and an image recognition module (25), wherein the image recognition module (25) is used for acquiring image information of a metal belt and an ointment spraying track positioned on the surface of the metal belt;

the ointment pushing mechanism (10) is connected to a first port of a three-way joint (11) through an oil conveying pipe (6), a second port of the three-way joint (11) is connected to a sprayer through an oil inlet pipe, the object carrier (1) is located under the sprayer, a third port of the three-way joint (11) is connected to the oil storage tank (4) through a first oil return pipe (7), two linear rails are fixed to the upper surface of the support frame (2) and embedded into grooves of a sliding block fixed to the lower surface of the moving plate, a front baffle and a rear baffle are arranged at the front end and the rear end of the support frame (2) respectively, a screw embedded with a nut is installed between the front baffle and the rear baffle, a servo motor (26) is installed at one end of the screw, and the nut is fixed to the lower surface of the moving plate;

the ointment pushing mechanism (10) further comprises a variable frequency motor (101), a worm and gear reduction box (102) and a screw pump (103), the oil storage tank (4) is mounted on the screw pump (103), and the output end of the screw pump (103) is connected to the oil conveying pipe (6);

the oil supply pipeline (3) is provided with an electromagnetic valve, the PLC control module is connected with the variable frequency motor (101), the electromagnetic valve, the image recognition module (25) and the servo motor (26), the PLC control module receives a spray head factice real-time pressure value signal from a pressure sensor of the digital display intelligent pressure gauge (19), when the factice pressure is lower than a set value, the PLC control module controls the variable frequency motor (101) to accelerate, and when the factice pressure is higher than the set value, the PLC control module controls the variable frequency motor (101) to decelerate;

the PLC control module receives the factice spraying track image information from the surface of the metal belt of the image recognition module (25), compares the factice spraying track image information with a reference factice spraying track image, when the factice track in the actual factice track image is too narrow, the PLC control module controls the variable frequency motor (101) to accelerate through the frequency converter, and the rotating speed of the screw pump (103) is accelerated to output and increase until the track tends to a set pattern; when the ointment track in the ointment track image is too wide, the PLC control module controls the variable frequency motor (101) to decelerate through the frequency converter, and the rotating speed of the screw pump (103) is slowed down to reduce output until the track tends to set a pattern; when the ointment track in the ointment track image deviates to set a track, the PLC control module controls the servo motor (26) to rotate forwards or backwards, and the servo motor drives the spray head to move until the track tends to set a pattern; the oil delivery pipe (6) is provided with a ball valve, and a second return pipe is positioned between the oil storage tank (4) and the oil delivery pipe (6).

2. The optical fiber cable ointment spray system capable of intelligently adjusting the spray amount according to claim 1, characterized in that: and a display screen (27) is connected to the image recognition module (25) and is used for displaying the ointment spraying track image in real time.

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