CN111198423B - Wiring device for optical fiber temperature measurement and wiring method thereof - Google Patents

Abstract

The invention discloses a wiring device for optical fiber temperature measurement, which comprises a bottom plate, wherein an optical fiber bundling bin is arranged at the top end of the bottom plate, a control switch is embedded into one end of the optical fiber bundling bin, a wiring seat is arranged at the position, corresponding to one side of the optical fiber bundling bin, of the top end of the bottom plate, moving wheels are symmetrically connected with the bottom ends of the bottom plate and the wiring seat, the wiring device is scientific and reasonable in structure and safe and convenient to use, optical fibers can be bundled on a bundling roller through a placing rod, a moving slide block, a moving groove and the placing seat, the distance between the placing rod and the placing seat is adjusted, the position of the bundled optical fibers is conveniently adjusted, the spraying bin, the spraying pump, the spraying slide seat and the fixing seat are arranged, the spraying pump can operate to spray blocking paint on the surfaces of the optical fibers, the positions of the spraying blocking paint on the optical fibers can be adjusted, and the blocking paint is coated on the surfaces of the optical fibers, the influence of an external light source on the temperature measurement of the optical fiber is isolated.

Description

Wiring device for optical fiber temperature measurement and wiring method thereof

Technical Field

The invention relates to the technical field of optical fiber temperature measurement, in particular to a wiring device and a wiring method for optical fiber temperature measurement.

Background

The optical fiber sensing technology is a new sensing technology along with the development of optical fiber and optical fiber communication technology, the optical fiber temperature measurement technology is a new technology developed in recent years and has gradually shown some excellent characteristics, however, just like other new technologies, the optical fiber temperature measurement technology is not universal and is not used for replacing the traditional method, but is used for supplementing and improving the traditional temperature measurement method, the characteristics of the traditional temperature measurement method are fully played, and a new temperature measurement scheme and a new application occasion of the technology can be created;

however, when the existing wiring device for optical fiber temperature measurement in the market is used, the optical fiber cannot be well bundled during optical fiber temperature measurement, and the position of the bundled optical fiber is difficult to adjust, so that subsequent wiring of the optical fiber is easily influenced.

Disclosure of Invention

The technical scheme provided by the invention can effectively solve the problems that the optical fiber cannot be well bundled during the temperature measurement of the optical fiber and the position of the bundled optical fiber is difficult to adjust, so that the subsequent wiring of the optical fiber is easily influenced.

In order to achieve the purpose, the invention provides the following technical scheme: a wiring device for optical fiber temperature measurement comprises a bottom plate, wherein an optical fiber bundling bin is mounted at the top end of the bottom plate, a control switch is embedded in one end of the optical fiber bundling bin, a wiring seat is mounted at the position, corresponding to one side of the optical fiber bundling bin, of the top end of the bottom plate, moving wheels are symmetrically connected to the bottom ends of the bottom plate and the wiring seat, a transmission hole is formed in the bottom end of the bottom plate in a penetrating mode, and a limiting hole is formed in the position, corresponding to one side of the transmission hole, of the bottom end of the bottom plate in a penetrating mode;

the inner wall of the optical fiber bundling bin is connected with an optical fiber bundling mechanism, and the optical fiber bundling mechanism comprises a fixed moving seat, a moving groove, a moving sliding block, a placing rod and a placing seat;

the optical fiber bundling bin is characterized in that a fixed moving seat is connected to the inner wall of one end of the optical fiber bundling bin, a moving groove is slidably mounted on the inner wall of the fixed moving seat, a moving slider is uniformly slidably mounted at one end of the moving groove, a placing rod is fixedly connected to one end of the moving slider, and a placing seat is uniformly connected to the top end of the placing rod.

Preferably, the top end of each placing seat is in a concave arc shape, the number of the placing seats is four, and the distance between every two adjacent placing seats is the same.

Preferably, the top end of the bottom plate is connected with an optical fiber spraying mechanism corresponding to one side of the optical fiber bundling bin, and the optical fiber spraying mechanism comprises a spraying bin, a spraying through hole, a fixed seat, a spraying sliding seat, a coating bin and a spraying pump;

a spraying bin is connected to the position, corresponding to one side of the optical fiber bundling bin, of the top end of the bottom plate, a spraying through hole is formed in the center of the top end of the spraying bin, fixing seats are connected to the positions, corresponding to the two sides of the spraying through hole, of the top end of the spraying bin, a spraying sliding seat is slidably installed at the top end of each fixing seat, a coating bin is fixedly installed at the top end of each spraying sliding seat, and a spraying pump is connected to the inner wall of the bottom end of each coating bin;

the input end of the control switch is electrically connected with the output end of the commercial power, and the output end of the control switch is electrically connected with the input end of the spraying pump.

Preferably, one end of the wiring seat is embedded with a wiring distance adjusting mechanism, and the wiring distance adjusting mechanism comprises a sliding groove, a sliding frame, an optical fiber conducting plate, a conducting moving groove, an optical fiber limiting seat, a pushing plate and a pushing handle;

the sliding tray has been seted up to the inside of wiring seat, the even sliding connection of inner wall of sliding tray has the carriage, the one end fixedly connected with optical fiber conduction board of carriage, the top of bottom plate corresponds optical fiber conduction board position department and has seted up the conduction shifting chute, the outside of optical fiber conduction board evenly is connected with the spacing seat of optic fibre, the top of carriage is connected with the slurcam, the promotion is installed on the top of slurcam.

Preferably, one end of the sliding frame penetrates through the wiring seat to be provided with a wiring spraying mechanism, and the wiring spraying mechanism comprises a storage bin, an atomizing spraying pump, a spraying head and a feeding port;

one end of the sliding frame penetrates through the wiring seat and is provided with a storage bin, the inner wall of the bottom end of the storage bin is provided with an atomization spraying pump, the bottom end of the atomization spraying pump is connected with a spraying head, and the top end of the storage bin is provided with a feeding hole;

the output end of the control switch is electrically connected with the input end of the atomizing spray pump.

Preferably, the outer side of the pushing handle is uniformly provided with anti-skid grains, and the bottom end of the optical fiber conducting plate is connected with the inner wall of the conducting moving groove in a sliding mode.

Preferably, the bottom end of the spray head penetrates through the storage bin to be in contact with air, and the outer side of the storage bin is coated with antirust paint.

A wiring method for optical fiber temperature measurement comprises the following steps:

s1, bundling and placing: bundling the optical fiber on an optical fiber bundling roller, and placing the optical fiber bundling roller in a bundling bin;

s2, dredging and spraying: after threading the collected optical fiber, dredging the optical fiber and spraying a barrier coating on the surface of the optical fiber;

s3, wiring spraying: and (3) wiring the optical fiber sprayed with the barrier coating, and spraying the thermal insulation coating on the surface of the optical fiber subjected to wiring.

According to the technical characteristics, in the step S2, after the collected optical fibers are threaded along the conducting plate and the limiting seat, the distance between the optical fibers is adjusted, then the optical fibers are dredged, and the blocking paint is sprayed on the surfaces of the optical fibers, wherein the time for spraying the blocking paint on the surfaces of the optical fibers per centimeter is 2S.

According to the technical characteristics, in the step S3, the optical fibers coated with the barrier coating are wired, and the thermal insulation coating is sprayed on the surfaces of the wired optical fibers, wherein the time for spraying the thermal insulation coating on each centimeter of the surfaces of the optical fibers is 3S.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. through the setting place the pole, remove slider, shifting chute and place the seat, can tighten up optic fibre on the roller of binding, the portable pole of placing makes to place the pole and removes along the shifting chute through removing the slider, and the adjustable distance of placing the pole and placing the seat is convenient for carry out position adjustment to the optic fibre after the receipts.

2. Through the storehouse of spraying that sets up, spray the pump, spray slide and fixing base, the accessible sprays the pump operation, carries out spraying separation coating to the optical fiber surface, and the accessible sprays the slide on the fixing base top, adjusts the position of scribbling the feed bin to the adjustment sprays the position of separation coating to optic fibre, can be to optical fiber surface coating separation coating, isolated external light source is to the influence of optic fibre temperature measurement.

3. Through the optical fiber conducting plate, the optical fiber limiting seat, the pushing handle and the pushing plate which are arranged, the optical fiber can be conducted, the pushing handle is moved, the position of optical fiber wiring is adjusted, the adjustment of the position of the optical fiber before the optical fiber wiring is convenient, and the operation during the optical fiber wiring is convenient.

4. Through the atomizing spray pump, the storage bin and the spray head that set up, the operation of accessible atomizing spray pump takes out thermal barrier coating, carries out spraying thermal barrier coating to the optic fibre after the wiring to the thermal-insulated ability of multiplicable wiring optic fibre.

5. When the optical fiber machine is wired, firstly, optical fibers are bundled on an optical fiber bundling roller, the optical fiber bundling roller is placed in a bundling bin, then the bundled optical fibers are threaded along a conducting plate and a limiting seat, the optical fibers are dredged after the distance between the optical fibers is adjusted, then barrier coating of 2s is sprayed on the surface of each centimeter of optical fibers, then the optical fibers sprayed with the barrier coating are wired, and thermal insulation coating of 3s is sprayed on the surface of each centimeter of optical fibers after the wiring.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the guiding hole and the limiting hole;

FIG. 3 is a schematic structural view of the optical fiber take-up mechanism of the present invention;

FIG. 4 is a schematic structural view of a fiber optic spray mechanism of the present invention;

FIG. 5 is a schematic view of the mounting arrangement of the coating silo and the spray pump of the present invention;

FIG. 6 is a schematic structural view of the wire spacing mechanism of the present invention;

FIG. 7 is a schematic structural view of the wire spray mechanism of the present invention;

reference numbers in the figures: 1. a base plate; 2. an optical fiber bundling bin; 3. a control switch; 4. a wiring seat; 5. a moving wheel; 6. a conductive hole; 7. a limiting hole;

8. an optical fiber bundling mechanism; 801. a fixed moving seat; 802. a moving groove; 803. moving the slide block; 804. placing a rod; 805. a placing seat;

9. an optical fiber spraying mechanism; 901. a spraying bin; 902. spraying through holes; 903. a fixed seat; 904. a spraying slide seat; 905. a coating bin; 906. a spray pump;

10. a wiring distance adjusting mechanism; 1001. a sliding groove; 1002. a carriage; 1003. an optical fiber conducting plate; 1004. a conductive moving slot; 1005. an optical fiber limiting seat; 1006. a push plate; 1007. a pushing handle;

11. a wiring spraying mechanism; 1101. a storage bin; 1102. an atomizing spray pump; 1103. a sprinkler head; 1104. a feed inlet.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1-7, the invention provides a technical solution, a wiring device for optical fiber temperature measurement, comprising a bottom plate 1, wherein an optical fiber bundling bin 2 is installed at the top end of the bottom plate 1, a control switch 3 is embedded into one end of the optical fiber bundling bin 2, a wiring seat 4 is installed at the top end of the bottom plate 1 corresponding to one side of the optical fiber bundling bin 2, moving wheels 5 are symmetrically connected to the bottom ends of the bottom plate 1 and the wiring seat 4, a transmission hole 6 is formed at the bottom end of the bottom plate 1 in a penetrating manner, and a limit hole 7 is formed at the bottom end of the bottom plate 1 corresponding to one side of the transmission hole 6 in a penetrating manner;

the inner wall of the optical fiber bundling bin 2 is connected with an optical fiber bundling mechanism 8, and the optical fiber bundling mechanism 8 comprises a fixed moving seat 801, a moving groove 802, a moving sliding block 803, a placing rod 804 and a placing seat 805;

the inner wall of one end of the optical fiber bundling bin 2 is connected with a fixed moving seat 801, the inner wall of the fixed moving seat 801 is slidably provided with a moving groove 802, one end of the moving groove 802 is uniformly slidably provided with a moving sliding block 803, one end of the moving sliding block 803 is fixedly connected with a placing rod 804, the top end of the placing rod 804 is uniformly connected with a placing seat 805, the top end of the placing seat 805 is in a concave arc shape, the number of the placing seats 805 is four, the distance between every two adjacent placing seats 805 is the same, and the optical fiber bundling roller can be conveniently placed in multiple positions.

The top end of the bottom plate 1 is connected with an optical fiber spraying mechanism 9 at a position corresponding to one side of the optical fiber bundling bin 2, and the optical fiber spraying mechanism 9 comprises a spraying bin 901, a spraying through hole 902, a fixed seat 903, a spraying sliding seat 904, a coating bin 905 and a spraying pump 906;

a spraying bin 901 is connected to the position, corresponding to one side of the optical fiber bundling bin 2, of the top end of the bottom plate 1, a spraying through hole 902 is formed in the center of the top end of the spraying bin 901, fixing seats 903 are connected to the positions, corresponding to the two sides of the spraying through hole 902, of the top end of the spraying bin 901, spraying slide seats 904 are slidably mounted at the top ends of the fixing seats 903, a coating bin 905 is fixedly mounted at the top ends of the spraying slide seats 904, and a spraying pump 906 is connected to the inner wall of the bottom end of the coating bin 905;

the input end of the control switch 3 is electrically connected to the output end of the commercial power, and the output end of the control switch 3 is electrically connected to the input end of the spray pump 906.

One end of the wiring seat 4 is embedded with a wiring distance adjusting mechanism 10, and the wiring distance adjusting mechanism 10 comprises a sliding groove 1001, a sliding frame 1002, an optical fiber conducting plate 1003, a conducting moving groove 1004, an optical fiber limiting seat 1005, a pushing plate 1006 and a pushing handle 1007;

sliding tray 1001 has been seted up to wiring seat 4's inside, the even sliding connection of inner wall of sliding tray 1001 has carriage 1002, the one end fixedly connected with optical fiber conduction board 1003 of carriage 1002, the top of bottom plate 1 corresponds optical fiber conduction board 1003 position department and has seted up the conduction shifting chute 1004, the outside of optical fiber conduction board 1003 evenly is connected with the spacing seat of optic fibre 1005, the top of carriage 1002 is connected with slurcam 1006, the top of slurcam 1006 is installed and is promoted the handle 1007, the antiskid line has evenly been seted up in the outside of promotion handle 1007, the bottom and the conduction shifting chute 1004 inner wall sliding connection of optical fiber conduction board 1003, can avoid user's hand and promote to produce between the handle 1007 and slide.

One end of the sliding frame 1002 penetrates through the wiring seat 4 to be provided with a wiring spraying mechanism 11, and the wiring spraying mechanism 11 comprises a storage bin 1101, an atomizing spraying pump 1102, a spraying head 1103 and a feeding port 1104;

one end of the sliding frame 1002 penetrates through the wiring seat 4 to be provided with a storage bin 1101, the inner wall of the bottom end of the storage bin 1101 is provided with an atomizing spray pump 1102, the bottom end of the atomizing spray pump 1102 is connected with a spray head 1103, and the top end of the storage bin 1101 is provided with a feed inlet 1104;

the output end of the control switch 3 is electrically connected with the input end of the atomizing spray pump 1102, the bottom end of the spray head 1103 penetrates through the storage bin 1101 to be contacted with air, and the outer side of the storage bin 1101 is coated with antirust paint, so that the antirust performance of the storage bin 1101 is improved.

A wiring method for optical fiber temperature measurement comprises the following steps:

s1, bundling and placing: bundling the optical fiber on an optical fiber bundling roller, and placing the optical fiber bundling roller in a bundling bin;

s2, dredging and spraying: after threading the collected optical fiber, dredging the optical fiber and spraying a barrier coating on the surface of the optical fiber;

s3, wiring spraying: and (3) wiring the optical fiber sprayed with the barrier coating, and spraying the thermal insulation coating on the surface of the optical fiber subjected to wiring.

According to the technical characteristics, in step S2, after the collected optical fibers are threaded along the conducting plate and the limiting seat, the distance between the optical fibers is adjusted, then the optical fibers are dredged, and the blocking paint is sprayed on the surfaces of the optical fibers, wherein the time for spraying the blocking paint on the surfaces of the optical fibers per centimeter is 2S.

According to the technical characteristics, in step S3, the optical fibers coated with the barrier coating are wired, and the thermal insulation coating is sprayed on the surfaces of the wired optical fibers, wherein the time for spraying the thermal insulation coating on each centimeter of the surfaces of the optical fibers is 3S.

The working principle and the using process of the invention are as follows: when the wiring device for measuring the temperature of the optical fiber is used, the optical fiber can be bundled on the bundling roller, the placing rod 804 can be moved, the placing rod 804 can move along the moving groove 802 through the moving slide block 803, the distance between the placing rod 804 and the placing seat 805 can be adjusted, and the position adjustment of the bundled optical fiber is facilitated;

then, dredging the collected optical fiber, after the optical fiber enters the spraying bin 901, controlling the operation of the spraying pump 906 through the control switch 3, pumping out the blocking coating stored in the coating bin 905, pressurizing the blocking coating through the spraying pump 906 and spraying the blocking coating on the surface of the optical fiber, and adjusting the position of the coating bin 905 by sliding the spraying sliding seat 904 on the top end of the fixed seat 903 so as to adjust the position for spraying the blocking coating on the optical fiber;

then, the optical fibers coated with the barrier coatings are conducted through the optical fiber conducting plate 1003 and the optical fiber limiting seat 1005, the pushing handle 1007 can be moved to drive the pushing plate 1006 to move, and the sliding frame 1002 can be driven to move, so that the positions of optical fiber wiring are adjusted conveniently, and the optical fibers can be conveniently worked during the optical fiber wiring;

then, the operation of the atomizing spray pump 1102 can be controlled through the control switch 3, the thermal insulation coating stored in the storage bin 1101 can be pumped out through the operation of the atomizing spray pump 1102 and sprayed out through the spray head 1103, and the thermal insulation coating is sprayed on the optical fiber after wiring, so that the thermal insulation capability of the optical fiber can be increased;

when the optical fiber machine is wired, firstly, optical fibers are bundled on an optical fiber bundling roller, the optical fiber bundling roller is placed in a bundling bin, then the bundled optical fibers are threaded along a conducting plate and a limiting seat, the optical fibers are dredged after the distance between the optical fibers is adjusted, then barrier coating of 2s is sprayed on the surface of each centimeter of optical fibers, then the optical fibers sprayed with the barrier coating are wired, and thermal insulation coating of 3s is sprayed on the surface of each centimeter of optical fibers after the wiring.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A wiring arrangement for optic fibre temperature measurement, includes bottom plate (1), its characterized in that: the optical fiber bundling device is characterized in that an optical fiber bundling bin (2) is installed at the top end of the bottom plate (1), a control switch (3) is installed at one end of the optical fiber bundling bin (2) in an embedded mode, a wiring seat (4) is installed at the position, corresponding to one side of the optical fiber bundling bin (2), of the top end of the bottom plate (1), moving wheels (5) are symmetrically connected to the bottom ends of the bottom plate (1) and the wiring seat (4), a transmission hole (6) is formed in the bottom end of the bottom plate (1) in a penetrating mode, and a limiting hole (7) is formed in the position, corresponding to one side of the transmission hole (6), of the bottom end of the bottom plate (1);

the inner wall of the optical fiber bundling bin (2) is connected with an optical fiber bundling mechanism (8), and the optical fiber bundling mechanism (8) comprises a fixed moving seat (801), a moving groove (802), a moving sliding block (803), a placing rod (804) and a placing seat (805);

the inner wall of one end of the optical fiber bundling bin (2) is connected with a fixed moving seat (801), the inner wall of the fixed moving seat (801) is provided with a moving groove (802) in a sliding mode, one end of the moving groove (802) is uniformly provided with a moving sliding block (803) in a sliding mode, one end of the moving sliding block (803) is fixedly connected with a placing rod (804), and the top end of the placing rod (804) is uniformly connected with a placing seat (805);

one end of the wiring seat (4) is embedded with a wiring distance adjusting mechanism (10), and the wiring distance adjusting mechanism (10) comprises a sliding groove (1001), a sliding frame (1002), an optical fiber conducting plate (1003), a conducting moving groove (1004), an optical fiber limiting seat (1005), a pushing plate (1006) and a pushing handle (1007);

a sliding groove (1001) is formed in the wiring seat (4), the inner wall of the sliding groove (1001) is uniformly connected with a sliding frame (1002) in a sliding mode, one end of the sliding frame (1002) is fixedly connected with an optical fiber conducting plate (1003), a conducting moving groove (1004) is formed in the position, corresponding to the optical fiber conducting plate (1003), of the top end of the bottom plate (1), an optical fiber limiting seat (1005) is uniformly connected to the outer side of the optical fiber conducting plate (1003), a pushing plate (1006) is connected to the top end of the sliding frame (1002), and a pushing handle (1007) is installed at the top end of the pushing plate (1006);

one end of the sliding frame (1002) penetrates through the wiring seat (4) to be provided with a wiring spraying mechanism (11), and the wiring spraying mechanism (11) comprises a storage bin (1101), an atomizing spraying pump (1102), a spraying head (1103) and a feeding port (1104);

one end of the sliding frame (1002) penetrates through the wiring seat (4) to be provided with a storage bin (1101), the inner wall of the bottom end of the storage bin (1101) is provided with an atomizing spray pump (1102), the bottom end of the atomizing spray pump (1102) is connected with a spray head (1103), and the top end of the storage bin (1101) is provided with a feed inlet (1104);

the output end of the control switch (3) is electrically connected with the input end of the atomizing spray pump (1102).

2. The wiring device for measuring the temperature of the optical fiber according to claim 1, wherein the top end of the placing seat (805) is a concave arc shape, the number of the placing seats (805) is four, and the distance between two adjacent placing seats (805) is the same.

3. The wiring device for optical fiber temperature measurement according to claim 1, wherein an optical fiber spraying mechanism (9) is connected to a position, corresponding to one side of the optical fiber bundling bin (2), at the top end of the bottom plate (1), the optical fiber spraying mechanism (9) comprises a spraying bin (901), a spraying through hole (902), a fixed seat (903), a spraying sliding seat (904), a coating bin (905) and a spraying pump (906);

a spraying bin (901) is connected to one side of the top end of the bottom plate (1) corresponding to the optical fiber bundling bin (2), a spraying through hole (902) is formed in the center of the top end of the spraying bin (901), fixing seats (903) are connected to positions, corresponding to the two sides of the spraying through hole (902), of the top end of the spraying bin (901), a spraying sliding seat (904) is slidably installed at the top end of each fixing seat (903), a coating bin (905) is fixedly installed at the top end of each spraying sliding seat (904), and a spraying pump (906) is connected to the inner wall of the bottom end of each coating bin (905);

the input end of the control switch (3) is electrically connected with the output end of the commercial power, and the output end of the control switch (3) is electrically connected with the input end of the spraying pump (906).

4. The wiring device for optical fiber temperature measurement according to claim 1, wherein the pushing handle (1007) is provided with anti-slip patterns on the outer side, and the bottom end of the optical fiber conducting plate (1003) is connected with the inner wall of the conducting moving groove (1004) in a sliding manner.

5. The wiring device for optical fiber thermometry according to claim 1, wherein the bottom end of the sprinkler head (1103) is in contact with air through a storage compartment (1101), and the outside of the storage compartment (1101) is coated with an anti-rust paint.

6. A wiring method of a wiring device for optical fiber temperature measurement according to any one of claims 1 to 5, comprising the steps of:

s1, bundling and placing: bundling the optical fiber on an optical fiber bundling roller, and placing the optical fiber bundling roller in a bundling bin;

s2, dredging and spraying: after threading the collected optical fiber, dredging the optical fiber and spraying a barrier coating on the surface of the optical fiber;

s3, wiring spraying: and (3) wiring the optical fiber sprayed with the barrier coating, and spraying the thermal insulation coating on the surface of the optical fiber subjected to wiring.

7. The wiring method of the wiring device for measuring the temperature of the optical fibers according to claim 6, wherein in the step S2, the collected optical fibers are threaded along the conducting plate and the limiting seat, the distance between the optical fibers is adjusted to dredge the optical fibers, the surface of the optical fibers is sprayed with the barrier coating, and the time for spraying the barrier coating on each centimeter of the surface of the optical fibers is 1.5-2.5S.

8. The wiring method of the wiring device for optical fiber temperature measurement according to claim 6, wherein in step S3, the optical fiber coated with the barrier coating is wired, and the thermal insulation coating is sprayed on the surface of the wired optical fiber, and the time for spraying the thermal insulation coating per centimeter of the surface of the optical fiber is 2.5-3.5S.

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