CN208068807U - A kind of encapsulated air cooling equipment of optical cable - Google Patents

Abstract

A kind of encapsulated air cooling equipment of optical cable, including wind-force distributor, the cooling duct passed through equipped with optical cable of the confession after encapsulated in the wind-force distributor, there is cooling duct entrance and cooling duct to export for the cooling duct, and the diameter of the cooling duct entrance is more than the diameter of cooling duct outlet, and the inner surface of cooling duct forms conical surface.Further, the wind-force distributor is equipped with multigroup air-cooled spout, axis direction of the air-cooled spout of each group along the air-cooled traffic direction, that is, cooling duct of optical cable arranges, wind-force inner skeleton corresponds to every group of air-cooled nozzle exit area segmentation and is equipped with multistage cooling duct, and every section of cooling duct is equipped with cooling duct entrance and cooling duct exports.Can be encapsulated in optical cable and after curing, high pressure blow-gas is carried out, the rapid cable surface that dries up occupies little space in the remaining moisture of preceding road cooling curing process institute, efficient.

Description

A kind of encapsulated air cooling equipment of optical cable

Technical field

The utility model is related to a kind of encapsulated air cooling equipments of optical cable.

Background technology

The structure of existing optical cable is internal setting twisting fibers, and external encapsulated/plastic sleeve is to constitute overall structure and provide Barrier propterty, optical cable is encapsulated/and plastic sleeve is typically to be realized by extruder/extruder, and it is external in optical cable after extruder head submitting Encapsulated is the condition of high temperature, needs to carry out it cooling and solidifying and setting, with quality assurance.

Existing optical cable production line usually requires that cooling system and hair dryer are arranged after extruder head, so that optical cable is encapsulated Temperature is reduced to normal temperature state and dries up.Existing cooling system needs to configure longer bosh and multiple tracks drying, The production line grown is needed very much, the more time can be also expended, do not only take up workshop place and the waste of water resource can be caused.Contracting It is difficult to accomplish comprehensive cooling down again if short production line, causes finished cable internal cooling not in place, influence optical cable quality.

A kind of pencil optical cable life disclosed in patent document CN201720066225.6 for example than more typical optical cable production line A kind of cable jacket production line disclosed in producing line and patent document CN201520658003.4, that is, use traditional mobile water Slot, fixed sink and blow-dry device.

In order to improve the problem of optical cable production line is cooling and drying needs to configure more long-living producing line, efficiency is improved, invention is special Sharp document CN201710579101.2 discloses a kind of immersion and non-immersion alternate optical cable cooling system, the cooling system System includes from left to right actinobacillus device, cooling device, blow-dry device and traction winding device, the cooling device and institute successively It states and is additionally provided with dehydration device between blow-dry device；This is quickly cooled down system using immersion and non-immersion is alternately cooled Mode, cooling water wherein carries out cooling together by the storage of accumulator saturation during cooling in this way, is then being immersed into Two coolings are carried out in cooling water, and direct contact type cooling is carried out by being saturated with the accumulator of cooling water during cooling, Internal cooling effect is sufficiently achieved in the cooling path of optical cable in this way, while preventing from taking away extra moisture in discharging, And dehydration device and blow-dry device is combined thoroughly to carry out cooling treatment to optical cable.Patent of invention document CN201710579099.9 Disclose a kind of contact optical cable fast cooling cooling device.Both schemes are by a kind of improved accumulator and correlation Component is come the moisture that improves cooling effect and while reducing discharging is taken away, but this structure is complex, it is effect improved less, and And cost is larger, is also not suitable for that use is transformed in existing optical cable production line.

Importantly, existing hair dryer or blow-dry device usually blow cable surface by access blowing pipeline It is dry, be a kind of similar natural air cooled method, it is bad to dry up effect, cooling effect also almost without.For stiffening effect, can set Multiple tracks drying is set, also causes production line length longer, increases site area demand.

Utility model content

In view of situation above, in order to solve the problems, such as that above-mentioned technology exists, the utility model proposes a kind of encapsulated wind of optical cable Device for cooling, can be encapsulated in optical cable and after curing, and carries out high pressure blow-gas, and the rapid cable surface that dries up cools down curing process in preceding road The remaining moisture of institute, occupies little space, efficient.

The encapsulated air cooling equipment of optical cable according to the present utility model, including wind-force distributor are equipped in the wind-force distributor For the cooling duct that the optical cable after encapsulated passes through, there is cooling duct entrance and cooling duct to export for the cooling duct, and The diameter of the cooling duct entrance is more than the diameter of cooling duct outlet, and the inner surface of cooling duct forms conical surface；Institute State wind-force distributor and be equipped with several air-cooled spouts, the entrance of air-cooled spout be arranged on the outer wall of wind-force distributor with the external world The outlet of high-pressure air feed piping connection, air-cooled spout is arranged the inner surface in cooling duct and is connected to space in cooling duct； Several air-cooled spouts are circumferentially distributed in around cooling duct, also, along the longitudinal direction of encapsulated optical cable running route, wind The central axis in the cold relatively cool channel of spout is obliquely installed, and the entrance of air-cooled spout is set to cooling duct exit end, wind The outlet of cold spout is set to cooling duct entrance one end；In the transverse direction perpendicular to encapsulated optical cable running route, air-cooled spout Outlet alignment cooling duct center, also, the entrance of air-cooled spout deviates in the outlet and cooling duct of air-cooled spout The entrance offset direction of heart line, several air-cooled spouts is identical with deviation angle.

Preferably, the air-cooled spout includes the inflatable mouth, choke and circuit connection section being sequentially communicated, inflatable mouth setting It is connected on the inside of wind-force distributor and with cooling duct, circuit connection section is arranged on the outside of wind-force distributor and is supplied with external high pressure Air pipe is connected to.The external high pressure gas supply introduced from circuit connection section is for example compressor gas supplied by choke compression, and through blowing Gas port rapidly sprays, and blows away the remaining moisture of cable surface, while can also play certain cooling solidification and solidification effect stabilization Effect.

Preferably, the gas circuit mounting platform vertical with circuit connection section, gas circuit connection are equipped on the outside of the wind-force distributor Gas circuit connector is installed in portion.

Preferably, the wind-force distributor is equipped with multigroup air-cooled spout, and the air-cooled spout of each group is along the air-cooled operation side of optical cable It is arranged to the axis direction of i.e. cooling duct, wind-force inner skeleton corresponds to every group of air-cooled nozzle exit area segmentation and is equipped with multistage cooling Channel, every section of cooling duct is equipped with cooling duct entrance and cooling duct exports；Wherein, it is arranged and enters wind-force distributor in optical cable The diameter of the cooling duct entrance of the cooling duct of one end is more than the diameter of cooling duct outlet, and the inner surface of cooling duct is formed Conical surface；The diameter being arranged in the cooling duct entrance of each section of cooling duct at the other positions of wind-force distributor is equal to cooling lead to The inner surface of the diameter of road outlet, cooling duct forms spindle surface.Multistage air blowing can be formed, in cable surface residual water When dividing more, it can be ensured that gradually dry up.The inner surface of cooling duct forms spindle surface, can guide the screw type of blowout Air-flow enters next section of cooling duct, assists next group of air-cooled spout work.Next section of cooling duct described herein be according to For the overall trend of cooling air-flow, the overall trend of cooling air-flow is with the moving direction of optical cable on the contrary, cold in only one section of setting But in the case of channel be also in this way, contribute to will likely remaining moisture to optical cable rear portion blow out, avoid remaining in and blow On dry cable surface.If on the other hand optical cable is not reduced to room temperature thoroughly also, it helps further dropped to the optical cable at rear portion Temperature, the in this way optical cable for the temperature more slightly higher than environment temperature after sink/water mist cooling and solidifying, there is no need in Qian Dao Cooling and curing process separately increases equipment or increases solidification line length.

Preferably, the inner surface is the cooling duct on spindle surface, and the peak of inner surface is higher than air-cooled spout Inflatable mouth outlet port.Ensure that the air-flow of cooling duct forms stable flow direction, it will not be because of spiral air flow and direction of advance On obstruction lead to disorder, ensure cooling effect.

Further, the encapsulated air cooling equipment of the optical cable further includes air-cooled babinet, if being equipped with dry-air blast in the air cooled box body A wind-force distributor is fixedly installed on every piece of air-cooled box partition for cold box partition.

Preferably, the inner wall of the air-cooled babinet is equipped with air-cooled babinet sound-proof material.Internal denoising structure prevents high-velocity fluid By when the noise transmission that sends out.

Preferably, the both ends of the wind-force distributor are respectively provided with an air-cooled guide wheel.Air-cooled guide wheel for guide optical cable into In the cooling duct for entering wind-force distributor.Air-cooled guide wheel, which can be welded or be bolted by holder, is fixed on wind-force distributor Outer wall, wind-force distributor can be by welding or being bolted or being arranged card slot clamping or other support members are arranged to be fixed on On air-cooled box partition.

Preferably, the air-cooled babinet is equipped with the inlet and outlet that pass in and out for optical cable, the center of the inlet and outlet and The central coaxial of wind-force distributor is arranged.

Take the utility model proposes technology after, according to the encapsulated air cooling equipment of the optical cable of the utility model embodiment, Advantageous effect is：By spraying spiral shape or similar spiral high-speed gas, spiral all edge injections are formed, around logical The encapsulated cable surface in supercooling channel is blown, and quickly dries up cable surface.If cable surface ponding is more, will also be blown to straight The larger cooling duct inlet of diameter is discharged rapidly.For the more optical cable of preceding working procedure residual moisture, multistage can be formed and blown Gas carries out surface and air-dries.Can be encapsulated in optical cable and after curing, high pressure blow-gas is carried out, the rapid cable surface that dries up drops in preceding road The remaining moisture of warm curing process institute, occupies little space, efficient.

Description of the drawings

Fig. 1 shows the encapsulated air cooling equipment structure of the optical cable of the utility model embodiment one；

Fig. 2 is the wind-force inner skeleton structure in Fig. 1；

Fig. 3 is the left view of Fig. 2；

Fig. 4 shows the encapsulated air cooling equipment structure of the optical cable of the utility model embodiment two.

Specific implementation mode

The utility model is described in further detail below in conjunction with the embodiment that attached drawing provides.Described implementation Example includes the various details for helping to understand, but they can only be counted as illustratively, be the part of the utility model Embodiment, instead of all the embodiments.Unless otherwise defined, the technical term or scientific term used herein should be this The ordinary meaning that the personage with general technical ability is understood in utility model fields.Meanwhile in order to keep specification more clear Chu is succinct, by omission pair it is well known that the detailed description of function and construction.

Embodiment one

Shown in please referring to Fig.1 to Fig.3, wherein Fig. 1 is to see internal structure clearly, and box cover is omitted.

A kind of encapsulated air cooling equipment of optical cable includes wind-force distributor 31, is equipped in the wind-force distributor 31 for after encapsulated The cooling duct 310 that optical cable passes through, the cooling duct 310 have cooling duct entrance 311 and cooling duct outlet 312, and And the diameter of the cooling duct entrance 311 is more than the diameter of cooling duct outlet 312, the inner surface of cooling duct 310 is formed Conical surface；The wind-force distributor 31 is equipped with several air-cooled spouts 32, and the entrance setting of air-cooled spout 32 is distributed in wind-force On the outer wall of device 31 with extraneous high-pressure air feed piping connection, the interior table in cooling duct 310 is arranged in the outlet of air-cooled spout 32 Face is simultaneously connected to space in cooling duct 310；Several air-cooled spouts 32 are circumferentially distributed in around cooling duct 310, and And along the longitudinal direction of encapsulated optical cable running route, the central axis in 32 relatively cool channel 310 of air-cooled spout is obliquely installed, The entrance of air-cooled spout 32 is set to cooling duct and exports 312 one end, and the outlet of air-cooled spout 32 is set to cooling duct entrance 311 one end；In the transverse direction perpendicular to encapsulated optical cable running route, in the outlet alignment cooling duct 310 of air-cooled spout 32 The heart, also, the entrance of air-cooled spout 32 deviates the line of centres of the outlet and cooling duct 310 of air-cooled spout 32, and it is several air-cooled The entrance offset direction of spout 32 is identical with deviation angle.

The air-cooled spout 32 includes inflatable mouth 321, choke 322 and the circuit connection section 223 being sequentially communicated, inflatable mouth 321 settings are connected in 31 inside of wind-force distributor and with cooling duct 310, and circuit connection section 223 is arranged in wind-force distributor 31 Outside is simultaneously connected to external high pressure supply air line.The external high pressure gas supply introduced from circuit connection section 223 is for example compressor gas supplied It compresses by choke 322, and is rapidly sprayed through inflatable mouth 321, blow away the remaining moisture of cable surface, while can also play one The effect that fixed cooling solidification and solidification effect are stablized.

31 outside of the wind-force distributor is equipped with the gas circuit mounting platform vertical with circuit connection section 223, circuit connection section Gas circuit connector 324 is installed on 223.

The encapsulated air cooling equipment of optical cable further includes air-cooled babinet 30, and several air-cooled babinets are equipped in the air-cooled babinet 30 A wind-force distributor 31 is fixedly installed on every piece of air-cooled box partition 301 for partition board 301.

The inner wall of the air-cooled babinet 30 is equipped with air-cooled babinet sound-proof material 302.Internal denoising structure prevents high-velocity fluid logical The out-of-date noise transmission sent out.

The both ends of the wind-force distributor 31 are respectively provided with an air-cooled guide wheel 303.Air-cooled guide wheel 303 for guide optical cable into Enter in the cooling duct 310 of wind-force distributor 31.Air-cooled guide wheel 303, which can be welded or be bolted by holder, is fixed on wind-force The outer wall of distributor 31, wind-force distributor 31 can be by welding or being bolted or being arranged card slot clamping or other supports are arranged Component is to be fixed on air-cooled box partition 301.

The air-cooled babinet 30 is equipped with the inlet and outlet passed in and out for optical cable, center and the wind-force point of the inlet and outlet The central coaxial of orchestration 31 is arranged.

After the encapsulated air cooling equipment of optical cable is used for and solidification encapsulated in optical cable, high pressure blow-gas is carried out, dries up cable surface In the remaining moisture of preceding road cooling curing process institute, while it can also play the work that certain cooling solidification is stablized with solidification effect With.

The center of the outlet alignment cooling duct 310 of the air-cooled spout 32, also, the entrance of air-cooled spout 32 deviates wind The center of the outlet and cooling duct 310 of cold spout 32, specifically, from the point of view of projection on 31 cross section of wind-force distributor, The central axis of the outlet alignment cooling duct 310 of air-cooled spout 32, and the entrance of air-cooled spout 32 deviates cooling duct 310 The outlet connecting line of central axis and air-cooled spout 32.It can be realized by two methods, one is entering for air-cooled spout 32 Channel mouthful between outlet is set as screw type, and the high-speed gas that several air-cooled spouts 32 eject in this way will form spiral Shape is blown around by the encapsulated cable surface of cooling duct 310, is formed spiral periphery spray, cable surface is dried up, if optical cable Surface area water is more, will also be blown at the cooling duct entrance 311 being relatively large in diameter and is discharged, because air-cooled spout 32 is relatively cool The central axis in channel 310 is obliquely installed, and moisture will quickly be discharged from the cooling duct entrance 311 being relatively large in diameter.Another kind is examined The facility for considering manufacturing process, can set the channel between the entrance and exit of air-cooled spout 32 to straight type, but its drilling side It is configured to position according to herein described scheme, the high-speed gas that several air-cooled spouts 32 eject in this way will form class Like spiral shape, it can also surround and be blown by the encapsulated cable surface of cooling duct 310, form spiral periphery spray, dry up optical cable Surface will also be blown at the cooling duct entrance 311 being relatively large in diameter and be discharged, because of air-cooled spray if cable surface ponding is more The central axis in 32 relatively cool channels 310 of mouth is obliquely installed, and moisture will quickly be arranged from the cooling duct entrance 311 being relatively large in diameter Go out.Straight type structure can also buy existing jet/blowning installation and be arranged in wind-force distributor according to the technical solution of the application On 31, mating high-pressure air feed device.

Embodiment two

It please refers to shown in Fig. 4, the difference between this embodiment and the first embodiment lies in, the wind-force distributor 31 is equipped with multigroup Air-cooled spout 32, the air-cooled spout 32 of each group is along the axis direction arrangement of the air-cooled traffic direction, that is, cooling duct of optical cable 310, wind-force point Corresponding every group of 32 location segment of air-cooled spout in 31 inside of orchestration is equipped with multistage cooling duct 310, and every section of cooling duct 310 is equipped with cold But feeder connection 311 and cooling duct outlet 312；Wherein, the cooling duct that 31 one end of wind-force distributor is entered in optical cable is set The diameter of 310 cooling duct entrance 311 is more than the diameter of cooling duct outlet 312, and the inner surface of cooling duct 310 forms cone Shape surface；The diameter being arranged in the cooling duct entrance 311 of each section of cooling duct 310 at 31 other positions of wind-force distributor is equal to The inner surface of the diameter of cooling duct outlet 312, cooling duct 310 forms spindle surface.Multistage air blowing can be formed, in light When cable remained on surface moisture is more, it can be ensured that gradually dry up.The inner surface of cooling duct 310 forms spindle surface, can be with The screw type air-flow of guiding blowout enters next section of cooling duct 310, and next group of air-cooled spout 32 is assisted to work.Described herein Next section of cooling duct 310 is the movement of the overall trend and optical cable of cooling air-flow for the overall trend according to cooling air-flow Direction on the contrary, in the case where one-step cooling channel 310 are only arranged be also in this way, contribute to will likely remaining moisture to optical cable Rear portion is blown out, and avoids remaining on the cable surface dried up.If on the other hand optical cable is not reduced to room temperature thoroughly also, also have Help further cool down to the optical cable at rear portion, in this way for only more slightly higher than environment temperature after sink/water mist cooling and solidifying The optical cable of temperature, there is no need to separately increase equipment in preceding road cooling and curing process or increase solidification line length.

The inner surface is the cooling duct 310 on spindle surface, and the peak of inner surface is higher than air-cooled spout 32 The outlet port of inflatable mouth 321.Ensure that the air-flow of cooling duct 310 forms stable flow direction, it will not be because of spiral air flow and advance Obstruction on direction leads to disorder, ensures cooling effect.

"upper" described herein, "lower" or " top ", " lower section " are the phases for the placement status with normal use To upper and lower relation, that is, the upper and lower relation that illustrations are substantially shown.When placement status changes, such as overturn When, corresponding position relationship should be also converted therewith to understand or implement the technical solution of the application.

Claims (9)

1. a kind of encapsulated air cooling equipment of optical cable, which is characterized in that including wind-force distributor (31), in the wind-force distributor (31) The cooling duct (310) that optical cable equipped with confession after encapsulated passes through, the cooling duct (310) have cooling duct entrance (311) (312) are exported with cooling duct, and the diameter of the cooling duct entrance (311) is more than the straight of cooling duct outlet (312) The inner surface of diameter, cooling duct (310) forms conical surface；The wind-force distributor (31) is equipped with several air-cooled spouts (32), air-cooled spout (32) entrance be arranged on the outer wall of wind-force distributor (31) with extraneous high-pressure air feed piping connection, The outlet of air-cooled spout (32) is arranged the inner surface in cooling duct (310) and is connected to cooling duct (310) interior space；It is described Several air-cooled spouts (32) are circumferentially distributed in around cooling duct (310), also, along the longitudinal direction of encapsulated optical cable running route On, the central axis in the relatively cool channel of air-cooled spout (32) (310) is obliquely installed, and the entrance of air-cooled spout (32) is set to cold The outlet of but channel outlet (312) one end, air-cooled spout (32) is set to cooling duct entrance (311) one end；Perpendicular to packet In the transverse direction of glue optical cable running route, the center of outlet alignment cooling duct (310) of air-cooled spout (32), also, air-cooled spray The entrance of mouth (32) deviates the line of centres of the outlet and cooling duct (310) of air-cooled spout (32), several air-cooled spouts (32) Entrance offset direction it is identical with deviation angle.

2. the encapsulated air cooling equipment of a kind of optical cable according to claim 1, which is characterized in that the air-cooled spout (32) includes Inflatable mouth (321), choke (322) and the circuit connection section (223) being sequentially communicated, inflatable mouth (321) setting are distributed in wind-force Simultaneously be connected to cooling duct (310) on the inside of device (31), circuit connection section (223) setting wind-force distributor (31) outside and with it is outer Portion's high-pressure air feed pipeline connection.

3. the encapsulated air cooling equipment of a kind of optical cable according to claim 1 or 2, which is characterized in that the wind-force distributor (31) outside is equipped with the gas circuit mounting platform vertical with circuit connection section (223), and installation gas circuit connects on circuit connection section (223) Head (324).

4. the encapsulated air cooling equipment of a kind of optical cable according to claim 1 or 2, which is characterized in that the wind-force distributor (31) it is equipped with multigroup air-cooled spout (32), the air-cooled spout of each group (32) is along the air-cooled traffic direction, that is, cooling duct (310) of optical cable Axis direction arrangement, corresponding every group of air-cooled spout (32) location segment is equipped with multistage cooling duct inside wind-force distributor (31) (310), every section of cooling duct (310) is equipped with cooling duct entrance (311) and cooling duct outlet (312)；Wherein, it is arranged in light The diameter that cable enters the cooling duct entrance (311) of the cooling duct (310) of wind-force distributor (31) one end is more than cooling duct The diameter of (312) is exported, the inner surface of cooling duct (310) forms conical surface；It is arranged in wind-force distributor (31) other portions The diameter of the cooling duct entrance (311) of each section of cooling duct (310) of position is equal to the diameter of cooling duct outlet (312), cold But the inner surface of channel (310) forms spindle surface.

5. the encapsulated air cooling equipment of a kind of optical cable according to claim 4, which is characterized in that the inner surface is spindle table The cooling duct (310) in face, the peak of inner surface are higher than the outlet port of the inflatable mouth (321) of air-cooled spout (32).

6. the encapsulated air cooling equipment of a kind of optical cable according to claim 1 or 2, which is characterized in that the optical cable is encapsulated air-cooled Device further includes air-cooled babinet (30), and several air-cooled box partitions (301), every piece of air cooled box are equipped in the air-cooled babinet (30) A wind-force distributor (31) is fixedly installed on body partition board (301).

7. the encapsulated air cooling equipment of a kind of optical cable according to claim 6, which is characterized in that the air-cooled babinet (30) it is interior Wall is equipped with air-cooled babinet sound-proof material (302).

8. the encapsulated air cooling equipment of a kind of optical cable according to claim 6, which is characterized in that the wind-force distributor (31) Both ends are respectively provided with an air-cooled guide wheel (303).

9. the encapsulated air cooling equipment of a kind of optical cable according to claim 6, which is characterized in that the air-cooled babinet (30) is equipped with For the inlet and outlet of optical cable disengaging, the center of the inlet and outlet is arranged with the central coaxial of wind-force distributor (31).