CN106531355A - Cooling device and cooling method of extremely-slim coaxial cable - Google Patents
Cooling device and cooling method of extremely-slim coaxial cable Download PDFInfo
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- CN106531355A CN106531355A CN201611096266.6A CN201611096266A CN106531355A CN 106531355 A CN106531355 A CN 106531355A CN 201611096266 A CN201611096266 A CN 201611096266A CN 106531355 A CN106531355 A CN 106531355A
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01B—CABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
- H01B13/00—Apparatus or processes specially adapted for manufacturing conductors or cables
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01B—CABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
- H01B13/00—Apparatus or processes specially adapted for manufacturing conductors or cables
- H01B13/30—Drying; Impregnating
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- Manufacturing & Machinery (AREA)
- Devices That Are Associated With Refrigeration Equipment (AREA)
- Extrusion Moulding Of Plastics Or The Like (AREA)
Abstract
The invention relates to a cooling device of an extremely-slim coaxial cable. The cooling device is characterized by comprising a cooling device rack (6.1), wherein a horizontal cooling groove (6.2) is formed in an upper half segment of the cooling device rack (6.1), a water storage box (6.3) is formed in a lower half segment of the cooling device rack (6.1), the cooling groove (6.2) comprises a feeding region (6.5) at a left end, a cooling region (6.6) at an intermediate segment and a drying region (6.7) at a right end, a first magnetic mechanism (6.25) is arranged at a right segment of the cooling region (6.6) and is longitudinally arranged, and a third magnetic mechanism (6.28) is arranged at a left segment of the cooling region (6.6) and is longitudinally arranged. The cooling device and the cooling method of the extremely-slim coaxial cable have the advantages of stable production working condition and relatively good plastic extruding quality.
Description
Technical field
The present invention relates to a kind of Ultrathin coaxial cable cooling device and its cooling means.
Background technology
Coaxial cable has referred to two concentric conductors, and conductor and screen layer share the cable in same axle center.It is most common
Coaxial cable be made up of the copper conductors that insulating materials is isolated, the outside of nexine insulating materials be another layer of ring shaped conductor and
Its insulator, then entirely cable is encased by the sheath of polyvinyl chloride or teflon material.
Coaxial cable generally there are problems with extrusion process:
The cooling condition of wire rod after extrusion molding, after traditional extrusion molding, wire rod is directly monistic passes through from bosh, cooling effect
Difference, lacks cooling step step by step, causes extrusion molding formable layer second-rate.
The content of the invention
It is an object of the invention to overcome above-mentioned deficiency, there is provided a kind of production status are stable, and extrusion molding quality is preferably superfine
Coaxial cable cooling device and its cooling means.
The object of the present invention is achieved like this:
A kind of Ultrathin coaxial cable cooling device, it includes cooling device frame, and the upper semisection of cooling device frame is provided with horizontal stroke
To cooling bath, the lower semisection of cooling device frame is provided with storage tank, and the cooling bath includes the feed zone of left end, stage casing
Cooling zone and the dry section of right-hand member, are separated by vertical filter plate between feed zone and cooling zone, cooling zone and dry section it
Between separated by vertical dividing plate, the lowest point of feed zone is provided with discharge outlet, at discharge outlet by drainage pipeline connection store up
The water inlet of water tank, the delivery port of storage tank are connected to the top of cooling zone, the delivery port point of water supply line by water supply line
Go out former and later two feed water inlets, on water supply line, be provided with water supply line delivery pump;
The left end of the feed zone is provided with fed filtration cotton, and the bottom of fed filtration cotton is contacted with cooling trench bottom, it is described enter
The right-hand member in material area is provided with the first cooling guide wheel, and the right-hand member of the cooling zone is provided with the second cooling guide wheel, the dry section
Stage casing is provided with positioned opposite in front and back many and is dried blower, and the right-hand member of the dry section is provided with discharging filter cotton, is dried
It is anhydrous so that discharging filter cotton is dryness filter cotton in area;
Right section of the cooling zone is provided with the first magnetic mechanism being longitudinally arranged, and the first magnetic mechanism includes two clutch shaft bearings
Seat, first rotating shaft, the first magnet of two annulars, the first spacing block of annular, the first end cap of two annulars, four pieces
The impeller plate of the baffle plate of annular and ten pieces of rectangles;Two first bearing seats are arranged on the inwall in front and back of cooling zone, and first
The rear and front end of rotating shaft is respectively arranged in two first bearing seats, two the first magnet be set in the leading portion of first rotating shaft and after
Duan Shang, the first spacing block are arranged between two the first magnet, and two the first end caps are set with before two the first magnet
In the first rotating shaft of end and rear end, in four pieces of baffle plates, there are two pieces to be set with outside two the first end caps, in four pieces of baffle plates, have another
Outer two pieces are set with outside the first spacing block, leave gap, in front between two be set in outside the first spacing block piece baffle plate
Two pieces of baffle plates between the first magnet is outer and the first magnet between two pieces of baffle plates at rear outside be evenly arranged with respectively
Five blocks of impeller plates, along the radially uniform arrangement of the first magnet, baffle plate is close in the rear and front end of impeller plate to five blocks of impeller plates, two first
The position of the magnet position to the left below two feed water inlets of water supply line just;
Left section of the cooling zone is provided with the 3rd magnetic mechanism being longitudinally arranged, and the 3rd magnetic mechanism includes two 3rd bearings
Seat, the 3rd rotating shaft, the 3rd magnet of two annulars, the 3rd spacing block of annular and the 3rd end cap of two annulars;
Two 3rd bearing seats or so are arranged at left section of cooling zone, and the 3rd rotating shaft is hollow shaft, and the left and right two ends of the 3rd rotating shaft are distinguished
It is arranged on two 3rd bearing seats and the left and right two ends of the 3rd rotating shaft is passed outside two 3rd bearing seats, two the 3rd magnet
It is set on left section and right section of the 3rd rotating shaft, the 3rd spacing block is arranged between two the 3rd magnet, two the 3rd end caps point
It is not set in the 3rd rotating shaft of left end and right-hand member of two the 3rd magnet.
The lower semisection of cooling device frame is additionally provided with refrigeration machine, and cooling water first is connected between storage tank and refrigeration machine
Pipeline and cooling water second pipe, are respectively arranged with cooling water first on the first pipeline of cooling water and cooling water second pipe
Pipeline delivery pump and cooling water second pipe delivery pump, are provided with temperature sensor in storage tank.
The radial magnetic field orientation of two the first magnet is launched with the angle more than 60 degree, less than 90 degree, two
The radial magnetic field expansion direction of the first magnet is contrary.
The radial magnetic field orientation of two the 3rd magnet is launched with the angle more than 60 degree, less than 90 degree, two
The radial magnetic field expansion direction of the 3rd magnet is contrary.
A kind of Ultrathin coaxial cable cooling device, its cooling means are as follows:
Cable after extrusion molding cladding first passes through the filter cotton of feed zone, and cable after the first cooling guide wheel passes through filter plate, starts
Cooled down in cooling zone, sequentially passed through the 3rd hollow rotating shaft of the 3rd magnetic mechanism, then through the first magnetic mechanism
Gap between middle two pieces of baffle plates, then cools down guide wheel through second, then passes through dividing plate, is first dried blowing in dry section
Pipe is dried up, and is then left cooling device after the filter cotton that discharges, is completed whole cooling procedure;
In whole cooling procedure, as cooling water is flowed out from the top-right feed water inlet of the first magnetic mechanism, feed water inlet stream
The cooling water for going out is dropped down onto on the impeller plate towards the right side of the first magnetic mechanism, drives first rotating shaft to rotate clockwise, due to the first magnetic
Property between mechanism and the 3rd magnetic mechanism with magnetic coordinate so that the 3rd rotating shaft of the 3rd magnetic mechanism start rotate, now
Due to the change of each magnet magnetic line of force, cooling water flow to feed zone from discharge outlet by supplying to the left from cooling zone in cooling bath
Waterpipe is back in storage tank, and then the cooling water in storage tank is fallen from feed water inlet again by water supply line supply.
Compared with prior art, the invention has the beneficial effects as follows:
Ultrathin coaxial cable cooling device of the present invention and its cooling means have production status stable, and extrusion molding quality is preferably excellent
Point.
Description of the drawings
Schematic diagrames of the Fig. 1 for Ultrathin coaxial cable cooling device.
C-C sectional views of the Fig. 2 for Fig. 1.
Fig. 3 is the 3rd magnetic mechanism schematic diagram in Fig. 1.
Wherein:
Cooling device frame 6.1, cooling bath 6.2, storage tank 6.3, refrigeration machine 6.4, feed zone 6.5, cooling zone 6.6, dry section
6.7th, filter plate 6.8, dividing plate 6.9, discharge outlet 6.10, drainage pipeline 6.11, water supply line 6.12, water supply line delivery pump 6.13,
The first pipeline of cooling water 6.14, cooling water second pipe 6.15, the first pipeline delivery pump of cooling water 6.16, cooling water second pipe
Delivery pump 6.17, feed water inlet 6.18, temperature sensor 6.19, the cooling guide wheel 6.21, second of fed filtration cotton 6.20, first are cooled down
Guide wheel 6.22, be dried blower 6.23, discharging filter cotton 6.24, the first magnetic mechanism 6.25, the 3rd magnetic mechanism 6.28.
First bearing seat 6.251, first rotating shaft 6.252, the first magnet 6.253, the first spacing block 6.254, the first end cap
6.255th, baffle plate 6.256, impeller plate 6.257
3rd bearing seat 6.281, the 3rd rotating shaft 6.282, the 3rd magnet 6.283, the 3rd spacing block 6.284, the 3rd end cap
6.285。
Specific embodiment
Referring to Fig. 1 ~ Fig. 3, a kind of Ultrathin coaxial cable cooling device according to the present invention, it includes cooling device frame
6.1, the upper semisection of cooling device frame 6.1 is provided with horizontal cooling bath 6.2, and the lower semisection of cooling device frame 6.1 is arranged
Have storage tank 6.3 and a refrigeration machine 6.4, the cooling bath 6.2 include the cooling zone 6.6 of the feed zone 6.5, stage casing of left end and
The dry section 6.7 of right-hand member, is separated by vertical filter plate 6.8 between feed zone 6.5 and cooling zone 6.6, cooling zone 6.6 be dried
Separated by vertical dividing plate 6.9 between area 6.7, the cooling water between feed zone 6.5 and cooling zone 6.6 can circulate, and enter
The lowest point in material area 6.5 is provided with discharge outlet 6.10, connects entering for storage tank 6.3 by drainage pipeline 6.11 at discharge outlet 6.10
The mouth of a river, the delivery port of storage tank 6.3 be connected to the top of cooling zone 6.6 by water supply line 6.12, and water supply line 6.12 goes out
The mouth of a river separates former and later two feed water inlets 6.18, is provided with water supply line delivery pump 6.13 on water supply line 6.12, storage tank 6.3 with
The first pipeline of cooling water 6.14 and cooling water second pipe 6.15, the first pipeline of cooling water are connected between refrigeration machine 6.4
6.14 and cooling water second pipe 6.15 on be respectively arranged with the first pipeline delivery pump of cooling water 6.16 and cooling water second
Pipeline delivery pump 6.17, is provided with temperature sensor 6.19 in storage tank 6.3.
The left end of the feed zone 6.5 is provided with fed filtration cotton 6.20, the bottom of fed filtration cotton 6.20 and cooling bath
6.2 bottoms contact, therefore fed filtration cotton 6.20 is moist filter cotton, and the right-hand member of the feed zone 6.5 is provided with the first cooling
Guide wheel 6.21, the right-hand member of the cooling zone 6.6 are provided with the second cooling guide wheel 6.22, and the stage casing of the dry section 6.7 is provided with
Positioned opposite many are dried blower 6.23 in front and back, and the right-hand member of the dry section 6.7 is provided with discharging filter cotton 6.24, is dried
It is anhydrous so that discharging filter cotton 6.24 is dryness filter cotton in area 6.7.
Right section of the cooling zone 6.6 is provided with the first magnetic mechanism 6.25 being longitudinally arranged, the first magnetic mechanism 6.25
Including two first bearing seats 6.251, the first magnet 6.253, annular of 6.252, two annulars of first rotating shaft first
The baffle plate 6.256 and the impeller of ten pieces of rectangles of first 6.255, four pieces of annulars of end cap of 6.254, two annulars of spacing block
Plate 6.257;Two first bearing seats 6.251 are arranged on the inwall in front and back of cooling zone 6.6, two before and after first rotating shaft 6.252
End is respectively arranged in two first bearing seats 6.251, and two the first magnet 6.253 are set in the leading portion of first rotating shaft 6.252
On back segment, the first spacing block 6.254 is arranged between two the first magnet 6.253, and two the first end caps 6.255 are set with
In the first rotating shaft 6.252 of the front-end and back-end of two the first magnet 6.253, in four pieces of baffle plates 6.256, there are two pieces to cover respectively
Outside loaded on two the first end caps 6.255, in four pieces of baffle plates 6.256, there are other two pieces to be set with outside the first spacing block 6.254,
Gap is left between two pieces of baffle plates 6.256 being set in outside the first spacing block 6.254, between two pieces of baffle plates 6.256 in front
The first magnet 6.253 it is outer and the first magnet 6.253 of between two pieces of baffle plates 6.256 at rear are outer is evenly arranged with respectively
Five blocks of impeller plates 6.257, five blocks of impeller plates 6.257 along 6.253 radially uniform arrangement of the first magnet, before and after impeller plate 6.257
It is close to baffle plate 6.256 in two ends.The position of the first magnet 6.253 is just inclined below two feed water inlets 6.18 of water supply line 6.12
Left position.The radial magnetic field orientation of two the first magnet 6.253 is launched with the angle more than 60 degree, less than 90 degree,
The radial magnetic field expansion direction of two the first magnet 6.253 is contrary.First spacing block 6.254 is unit of plastic.
Left section of the cooling zone 6.6 is provided with the 3rd magnetic mechanism 6.28 being longitudinally arranged, the 3rd magnetic mechanism 6.28
Including two 3rd bearing seats 6.281, the 3rd magnet 6.283, annular of the 3rd 6.282, two annulars of rotating shaft the 3rd
3rd end cap 6.285 of spacing block 6.284 and two annulars;Two 3rd bearing seats 6.281 or so are arranged at cooling zone
Left section of 6.6, the 3rd rotating shaft 6.282 is hollow shaft, and the left and right two ends of the 3rd rotating shaft 6.282 are respectively arranged at two 3rd bearings
On seat 6.281 and the left and right two ends of the 3rd rotating shaft 6.282 are passed outside two 3rd bearing seats 6.281, two the 3rd magnet
On 6.283 be set in the 3rd rotating shaft 6.282 left sections and right section, the 3rd spacing block 6.284 is arranged at two the 3rd magnet 6.283
Between, two the 3rd end caps 6.285 are set with the 3rd rotating shaft 6.282 of left end and right-hand member in two the 3rd magnet 6.283
On.The radial magnetic field orientation of two the 3rd magnet 6.283 is launched with the angle more than 60 degree, less than 90 degree, two
The radial magnetic field expansion direction of the 3rd magnet 6.283 is contrary.3rd spacing block 6.284 is unit of plastic.
The principle of above-mentioned cooling device 6:
Cable after extrusion molding cladding first passes through the filter cotton 6.20 of feed zone 6.5, it is ensured that the cleannes of cable so that cable is passed through
There is no impurities left during cooling bath 6.2 in water, cable passes through filter plate 6.8 after the first cooling guide wheel 6.21, starts cold
But area 6.6 is cooled down, and sequentially passes through the 3rd hollow rotating shaft 6.282 of the 3rd magnetic mechanism 6.28, then through the first magnetic
Property mechanism 6.25 two pieces of centre baffle plate 6.256 between gap, then through second cool down guide wheel 6.22, then pass through dividing plate
6.9, first blower 6.23 is dried in dry section 6.7 and is dried up, then left cooling device 6 after the filter cotton 6.24 that discharges,
Complete whole cooling procedure.
In whole cooling procedure when the coolant-temperature gage in temperature sensor 6.19 detects storage tank 6.3 is too high, cooling
The first pipeline delivery pump of water 6.16 is opened, and cooling water is delivered to refrigeration machine 6.4 from storage tank 6.3 and is freezed, then cooling water
Second pipe delivery pump 6.17 is opened, and the cooling water that refrigeration is completed is transmitted back to storage tank 6.3 from refrigeration machine 6.4, until temperature
The coolant-temperature gage that sensor 6.19 is detected in storage tank 6.3 meets the requirements, cooling water the first pipeline delivery pump 6.16, cooling water
Two pipeline delivery pumps 6.17 and refrigeration machine 6.4 quit work.
In whole cooling procedure, as cooling water is flowed out from 6.25 top-right feed water inlet 6.18 of the first magnetic mechanism
, the cooling water that feed water inlet 6.18 is flowed out is dropped down onto on the impeller plate 6.257 towards the right side of the first magnetic mechanism 6.25, drives first turn
Axle 6.252 is rotated clockwise, due to coordinating with magnetic between the first magnetic mechanism 6.25 and the 3rd magnetic mechanism 6.28 so that
3rd rotating shaft 6.282 of the 3rd magnetic mechanism 6.28 starts to rotate, and now due to the change of each magnet magnetic line of force, cooling water exists
Feed zone 6.5 is flow to the left from cooling zone 6.6 in cooling bath 6.2, and storage tank is back to by water supply line 6.12 from discharge outlet 6.10
In 6.3, then the cooling water in storage tank 6.3 is supplied by water supply line 6.12 and is fallen from feed water inlet 6.18 again, whole to cool down
The magnetic line of force of cooling water cutting movement in the cyclic process of water, causes to cool down magnetic water, so as to improve cooling effectiveness.In addition by
Feed zone 6.5 is flow to the left from discharge outlet 6.10 from cooling zone 6.6 in cooling water in cooling bath 6.2, the stream of cooling water at this
To contrary with the direct of travel of cable so that cable can carry out Slow cooling, that is to say, that cable is in the process for being cooled down
In, the cooling water for being touched is turned cold by heat so that cable is cooled down step by step, and cooling effect is more preferable, it is ensured that extrusion molding quality.
Claims (5)
1. a kind of Ultrathin coaxial cable cooling device, it is characterised in that it includes cooling device frame(6.1), cooling device frame
(6.1)Upper semisection be provided with horizontal cooling bath(6.2), cooling device frame(6.1)Lower semisection be provided with storage tank
(6.3), the cooling bath(6.2)Including the feed zone of left end(6.5), stage casing cooling zone(6.6)And the dry section of right-hand member
(6.7), feed zone(6.5)With cooling zone(6.6)Between pass through vertical filter plate(6.8)Separate, cooling zone(6.6)With dry section
(6.7)Between pass through vertical dividing plate(6.9)Separate, in feed zone(6.5)Lowest point be provided with discharge outlet(6.10), draining
Mouthful(6.10)Place is by drainage pipeline(6.11)Connection storage tank(6.3)Water inlet, storage tank(6.3)Delivery port by supply
Waterpipe(6.12)It is connected to cooling zone(6.6)Top, water supply line(6.12)Delivery port separate former and later two feed water inlets
(6.18), water supply line(6.12)On be provided with water supply line delivery pump(6.13);
The feed zone(6.5)Left end be provided with fed filtration cotton(6.20), fed filtration cotton(6.20)Bottom with cooling
Groove(6.2)Bottom contacts, the feed zone(6.5)Right-hand member be provided with the first cooling guide wheel(6.21), the cooling zone(6.6)
Right-hand member be provided with the second cooling guide wheel(6.22), the dry section(6.7)Stage casing be provided with before and after many positioned opposite
It is dried blower(6.23), the dry section(6.7)Right-hand member be provided with discharging filter cotton(6.24), dry section(6.7)Interior nothing
Water causes the filter cotton that discharges(6.24)For dryness filter cotton;
The cooling zone(6.6)Right section be provided with the first magnetic mechanism being longitudinally arranged(6.25), the first magnetic mechanism
(6.25)Including two first bearing seats(6.251), first rotating shaft(6.252), two annulars the first magnet(6.253)、
First spacing block of annular(6.254), two annulars the first end cap(6.255), four pieces of annulars baffle plate(6.256)
And the impeller plate of ten pieces of rectangles(6.257);Two first bearing seats(6.251)It is arranged at cooling zone(6.6)Before and after inwall
On, first rotating shaft(6.252)Rear and front end be respectively arranged at two first bearing seats(6.251)On, two the first magnet
(6.253)It is set in first rotating shaft(6.252)Leading portion and back segment on, the first spacing block(6.254)It is arranged at two the first magnetic
Iron(6.253)Between, two the first end caps(6.255)It is set with two the first magnet(6.253)Front-end and back-end
First rotating shaft(6.252)On, four pieces of baffle plates(6.256)In have two pieces to be set with two the first end caps(6.255)Outward, four pieces
Baffle plate(6.256)In have other two pieces to be set with the first spacing block(6.254)Outward, it is set in the first spacing block(6.254)
Two pieces of outer baffle plates(6.256)Between leave gap, in two pieces of baffle plates in front(6.256)Between the first magnet(6.253)
Outward and in two pieces of baffle plates at rear(6.256)Between the first magnet(6.253)It is outer to be evenly arranged with five blocks of impeller plates respectively
(6.257), five blocks of impeller plates(6.257)Along the first magnet(6.253)Radially uniform arrangement, impeller plate(6.257)Before and after two
It is close to baffle plate in end(6.256), two the first magnet(6.253)Position just in water supply line(6.12)Two feed water inlets
(6.18)Lower section position to the left;
The cooling zone(6.6)Left section be provided with the 3rd magnetic mechanism being longitudinally arranged(6.28), the 3rd magnetic mechanism
(6.28)Including two 3rd bearing seats(6.281), the 3rd rotating shaft(6.282), two annulars the 3rd magnet(6.283)、
3rd spacing block of annular(6.284)And the 3rd end cap of two annulars(6.285);Two 3rd bearing seats
(6.281)Left and right is arranged at cooling zone(6.6)Left section, the 3rd rotating shaft(6.282)For hollow shaft, the 3rd rotating shaft(6.282)'s
Left and right two ends are respectively arranged at two 3rd bearing seats(6.281)Upper and the 3rd rotating shaft(6.282)Left and right two ends pass two
Individual 3rd bearing seat(6.281)Outward, two the 3rd magnet(6.283)It is set in the 3rd rotating shaft(6.282)Left section and right section on,
3rd spacing block(6.284)It is arranged at two the 3rd magnet(6.283)Between, two the 3rd end caps(6.285)Be set with
Two the 3rd magnet(6.283)Left end and right-hand member the 3rd rotating shaft(6.282)On.
2. a kind of Ultrathin coaxial cable cooling device according to claim 1, it is characterised in that cooling device frame(6.1)
Lower semisection be additionally provided with refrigeration machine(6.4), storage tank(6.3)With refrigeration machine(6.4)Between be connected with the first pipeline of cooling water
(6.14)And cooling water second pipe(6.15), the first pipeline of cooling water(6.14)And cooling water second pipe(6.15)On
It is respectively arranged with the first pipeline delivery pump of cooling water(6.16)And cooling water second pipe delivery pump(6.17), storage tank
(6.3)Temperature sensor is provided with inside(6.19).
3. a kind of Ultrathin coaxial cable cooling device according to claim 1, it is characterised in that two the first magnet
(6.253)Radial magnetic field orientation be all with more than 60 degree, the expansion of angle less than 90 degree, two the first magnet
(6.253)Radial magnetic field expansion direction it is contrary.
4. a kind of Ultrathin coaxial cable cooling device according to claim 1, it is characterised in that two the 3rd magnet
(6.283)Radial magnetic field orientation be all with more than 60 degree, the expansion of angle less than 90 degree, two the 3rd magnet
(6.283)Radial magnetic field expansion direction it is contrary.
5. a kind of Ultrathin coaxial cable cooling device according to claim 1, it is characterised in that its cooling means is as follows:
Cable after extrusion molding cladding first passes through feed zone(6.5)Filter cotton(6.20), cable is through the first cooling guide wheel
(6.21)Filter plate is passed through afterwards(6.8), start in cooling zone(6.6)Cooled down, sequentially passed through the 3rd magnetic mechanism(6.28)'s
The 3rd hollow rotating shaft(6.282), then through the first magnetic mechanism(6.25)Two pieces of centre baffle plate(6.256)Between between
Gap, then cools down guide wheel through second(6.22), then pass through dividing plate(6.9), in dry section(6.7)Blower is dried first
(6.23)Dry up, then through discharging filter cotton(6.24)After leave cooling device(6), complete whole cooling procedure;
In whole cooling procedure, as cooling water is from the first magnetic mechanism(6.25)Top-right feed water inlet(6.18)Flow out
, feed water inlet(6.18)The cooling water of outflow drops down onto the first magnetic mechanism(6.25)Towards right impeller plate(6.257)On, drive
First rotating shaft(6.252)Rotate clockwise, due to the first magnetic mechanism(6.25)With the 3rd magnetic mechanism(6.28)Between have
Magnetic coordinates so that the 3rd magnetic mechanism(6.28)The 3rd rotating shaft(6.282)Start to rotate, now due to each magnet magnetic force
The change of line, cooling water is in cooling bath(6.2)In from cooling zone(6.6)Feed zone is flow to the left(6.5)From discharge outlet(6.10)
By water supply line(6.12)It is back to storage tank(6.3)It is interior, then storage tank(6.3)Interior cooling water passes through water supply line
(6.12)Supply is again from feed water inlet(6.18)Fall.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107731422A (en) * | 2017-11-29 | 2018-02-23 | 湖北凯乐科技股份有限公司 | A kind of cable cooling device with blow-dry function |
CN112349451A (en) * | 2020-11-19 | 2021-02-09 | 盛珊瑜 | Enameled wire and manufacturing and processing method thereof |
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JP2016186983A (en) * | 2015-03-27 | 2016-10-27 | 大陽日酸株式会社 | Cooling apparatus for superconductive power apparatus and cooling method for superconductive power apparatus |
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CN112349451A (en) * | 2020-11-19 | 2021-02-09 | 盛珊瑜 | Enameled wire and manufacturing and processing method thereof |
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