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Intermediate frequency induction heating copper wire annealing equipment

Intermediate frequency induction heating copper wire annealing equipment

 

1 , Bayani:

Intermediate frequency induction heating copper wire (copper tube ) annealing equipment is suitable for on-line annealing of copper wire (brass alloy outer sheath). The penetration depth and hardness are according to the specific requirements of customers to achieve stress removal and softening of the brass alloy. The purpose of the outer sheath.

Equipment introduction The complete set of equipment is designed and manufactured according to the mechatronics structure. Among them, the intermediate frequency power supply is a set of 6- pulse thyristor KGPS200KW/8KHZ intermediate frequency power supply, the load is a set of GTR series induction heating furnace, and the equipment is equipped with a set of reactive power compensation capacitor bank. The device is designed with manual and automatic power adjustment knobs, among which automatic is the temperature closed-loop control mode. The external control console is controlled by PLC (Siemens) and touch screen. The touch screen can easily input heating parameters, such as copper wire specifications, heating speed, annealing temperature, etc. After the parameters are input, the closed loop control system of the intermediate frequency power supply temperature will automatically adjust the output power, thereby Meet production needs. When a certain link in the production fails, the intermediate frequency power supply can be insulated according to the set temperature to avoid overburning the copper wire. The equipment is placed according to user requirements, facing the equipment from left to right, the operating table is placed toward the main equipment, which is conducive to the operator to observe the production situation and facilitate the adjustment of parameters.

Safety protection The equipment has complete safety protection measures, such as water shortage protection, phase lack protection, over current protection, over voltage protection, under voltage protection, high water temperature protection, etc., and there is an audible and visual alarm device for faults. The equipment is configured according to 200KW , leaving enough power margin to ensure continuous and stable production of the equipment for 24 hours. All exposed conductors are installed in the electric control box with a lock, and there are eye-catching safety reminders, so no electrical safety accidents will occur. Each interlocking device can avoid damage to equipment or copper wires due to manual misoperation.

Tsarin kayan aiki Cikakken saitin kayan aiki yana rufe yanki na kusan 2000*1500mm, tare da tsayin tsakiya na 1000mm. Ana haɗa wutar lantarki tare da jikin tanderun dumama, kuma ana amfani da kusoshi na faɗaɗa don gyara shi. An tsara kayan aiki tare da na’ura mai kwakwalwa na waje, wanda za’a iya shirya shi bisa ga yanayin shafin, wanda ya dace don aiki. Shigar da kayan aiki yana da sauƙi da sauri. Masu amfani kawai suna buƙatar haɗa bututun shigar ruwa da bututun ruwa tare da mashin ruwa da bututun kayan aiki (bututun ƙarfe ɗaya na kowane mashigar ruwa da fitarwa), kuma haɗa wayoyi huɗu masu hawa uku zuwa saman ƙarshen kayan aikin.

2 , induction heating annealing apparatus copper

fasahar fasaha

2 sigogin fasahar kayan abu

Kayan aikin aiki: ta hanyar waya ta ƙasa (ciki shine mai sarrafa madaidaicin jan ƙarfe, kuma waje an rufe shi da taguwar gami ta waje)

Hanyar cirewa: ci gaba da dumama shigar da kan layi

Material bayani dalla-dalla: φ 6- φ 13mm , bango kauri 1mm

2 dumama manyan buƙatun fasaha

Zazzabi na farko: 20 ℃;

Annealing zafin jiki: sarrafawa da daidaitacce a cikin kewayon 600 ℃; daidaiton gwajin zafin jiki na Layer gami da tagulla shine ± 5 ℃, kuma daidaiton sarrafa zafin jiki na dumama shigar shine ± 20 ℃.

Zurfin dumama: 2mm;

Gudun layin tsari: a cikin 30m / min (mafi girman saurin layin bai fi 30m / min ba);

Tsawon tsakiya na layin samarwa: 1m;

2.3 Zaɓin fasaha na cikakken kayan aiki

Cikakken saitin kayan aiki ya haɗa da tsarin sarrafa wutar lantarki na tsaka-tsaki, tsarin ma’aunin zafin jiki na infrared mai nisa, tsarin kula da yanayin zafin jiki, ajiyar wutar lantarki mai ɗaukar nauyi, induction dumama annealing tanderun, da sauransu.

Tsarin sarrafa wutar lantarki na matsakaici:

2.3.1 Matsakaicin mitar wutar lantarki shine na’urar mitar mitar thyristor, ƙarfin shigarwar shine 380V, 50Hz, ƙarfin fitarwa shine 200KW. Ana iya daidaita wutar lantarki da hannu ko ta atomatik bisa ga saita zafin jiki. Mitar fitarwa ita ce 8KHz (bibiya ta atomatik). An ƙaddara launi na majalisar bisa ga buƙatun mai amfani, girman madaidaicin shine 2000 × 1500 × 1300mm, kuma tsayin tsakiya shine 1000mm.

2.3.2 Nau’in harsashi mai haɗa silicon tara

Sashin gyarawa da juzu’i na thyristor yana ɗaukar sabuwar ƙirar siliki da aka haɗa tare da aikace-aikacen haƙƙin mallaka. Wannan hanyar shigarwa ta sa ƙaddamarwa da haɗuwa da thyristor ya fi dacewa da kimiyya. Lokacin da za a maye gurbin thyristor, kawai kwance shi Ƙaƙwalwar ƙarawa na iya maye gurbin kowane nau’in thyristor a cikin taron. Bugu da ƙari, wannan hanyar shigarwa yana da cikakken rage girman ɓangaren SCR, wanda ba wai kawai yana ƙara yawan aiki a cikin ma’ajin lantarki ba, amma kuma yana rage yawan asarar layin.

2.3.3 Babban ƙarfin DC smoothing reactor

Smoothing reactor yana da matukar mahimmanci don samar da wutar lantarki mai ƙarfi, yana da ayyuka biyu. Da farko, sanya abin da ake fitarwa na mai gyara ya zama santsi da kwanciyar hankali. Na biyu, lokacin da inverter thyristor ya kasance gajere, ƙimar girma na gajeriyar kewayawa da girman matsakaicin matsakaicin matsakaicin halin yanzu yana iyakance. Idan siga zane na tace reactor ne m, da core abu ba shi da kyau ko masana’antu tsari bai isa ba, zai yi babban tasiri a kan aiki AMINCI na matsakaici mitar wutar lantarki.

2.3.4 SCR mai girma

Don tabbatar da amincin aikin kayan aiki, duka masu gyara da inverter thyristors suna amfani da babban ƙarfin KP da KK silicon na tashar Xiangfan don tabbatar da ingantaccen aiki na kayan aiki.

2.3.5 Yi amfani da jeri da layukan ramawa masu kama da juna don rage asarar layukan watsawa

Domin rage hasara a kan matsakaicin mitar watsa layin, ana haɗa capacitor na diyya na inverter a cikin jeri da nau’in nau’in ƙarfin lantarki mai daidaitawa.

2.3.6 Babban sigogi na kewayawa da tushen zaɓin bangaren

Ana nuna ma’auni masu ƙima na babban da’irar wutar lantarki ta tsaka-tsaki a cikin tebur mai zuwa:

Tsarin lokaci KGPS200/8
Wutar shigar da wutar lantarki (V) 38
DC halin yanzu (A) 400
Wutar lantarki ta DC (V) 500
Induction coil aiki ƙarfin lantarki (V) 750
Mitar aiki (H z) 800

 

The inductor is composed of a furnace shell, an induction coil, a stainless steel water collector and a furnace lining. The induction coil is combined with the parameters of the annealed copper alloy tube to optimize the design with special computer software and make it in combination with actual experience. It can ensure the best electromagnetic coupling efficiency under the same capacity. Induction coils with 99.99% of T2 rectangular copper wire made, the induction coil outer insulating electrostatic spray process the epoxy resin insulating layer of high strength, pressure-resistant insulating layer is greater than 5000V .

The inner layer of the induction coil is made of white corundum lining, and the outside of the lining and between the coils are fixed with refractory cement (American Union Mine), which can play a role in insulation and heat preservation. At the same time, the strength of the white corundum lining is further increased, effectively avoiding copper wire damage to the lining.

Ana tattara duk ruwan da ke ciki da waje na firikwensin zuwa tarko na bakin karfe guda biyu, wadanda ke da alaƙa da babban bututun shigar ruwa da bututun fitarwa. Mai tara ruwa na bakin karfe yana da kyau kuma yana da amfani, wanda zai iya guje wa tasirin zafin zafi na induction coil saboda lalatawar bututun ruwa da toshewar hanyar ruwa.