溶解および保持用電気加熱式ベールアウト炉 T

優れた溶融性能が溶融の際の優れた温度均一性を提供します。

プロセス制御

機能と設備

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T800_11.png
T80_13.png
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T_Beheizung.png
T80_11_Schoepfen.png

Whether in manual pouring operation or integrated in an  automated casting cell, the electrically heated tilting furnaces are characterized by very good melt quality, optimum energy efficiency and low-maintenance operation. These furnaces are available with reduced connected load for only holding of aluminum alloys or with increased power for holding and melting as allrounders. 

  • T ../10 for holding aluminum alloys
  • T ../11 for melting and holding aluminum and zinc alloys
  • T ../13 for melting and holding copper alloys such as bronze or brass 
  • Free radiating heating elements arranged on four sides on support tubes provide for long service life and easy replacement
  • Twelve months warranty on heating elements
  • High melting performance with temperature uniformity in the melt
  • Multi-layer insulation for optimum energy efficiency and low external wall temperatures
  • Exclusive use of insulation materials without categorization according to EC Regulation No 1272/2008 (CLP). This explicitly means that alumino silicate wool, also known as “refractory ceramic fiber” (RCF), which is classified and possibly carcinogenic, is not used.
  • Emergency outlet for safe draining of the melt in case of crucible breakage
  • No exhaust gas discharge needed
  • Integrated safety system which continues to operate the furnace at reduced power in case of malfunction in the thermocouple, in order to prevent the freezing of the melt
  • Over-temperature limiter in furnace chamber for protection against overheating. The limiter switches the heating off when the set limit temperature is reached, and only switches it back on after the temperature has fallen again.
  • Low-maintenance furnace chamber control with temperature measurement behind the crucible
  • Defined application within the constraints of the operating instructions

付加装置

  • Crucible of clay-graphite or SiC
  • Collecting pan under the emergency outlet
  • Crucible breakage monitor with visual and audible signal (not for T ../13)
  • Bath control with thermocouples in the furnace chamber and in the melt (not for T ../13). The furnace temperature is controlled through the melt. Temperature overshoots are reduced, thus the quality of the melt is improved
  • Heating system operated through thyristors
  • Multi-step switching of the furnace heat 
  • Higher electrical ratings to increase melting performance
  • Work platform for ease of charging
  • Alarm message via SMS, e. g. in the event of crucible breakage
  • Process control and documentation via Nabertherm Control Center (NCC) for monitoring, documentation and control  

技術仕様

Model Tmax
furnace
Tmax
melt bath
Crucible Capacity
in kg
Heating power Melting performance3,6 Consumption
melting6
Consumption
holding
Lid closed/open
Outer dimensions5 in mm Weight
  °C °C   Al Zn Cu in kW4 in kg/h kWh/kg kWh/h W D H in kg
T 80/10 1000 800 BU 200 200 - - 20 - - 4/91 1110 1110 940 1050
T 110/10 1000 800 BU 300 300 - - 26 - - 5/101 1200 1200 1040 1240
T 150/10 1000 800 BU 350 350 - - 38 - - 5/101 1200 1200 1140 1330
T 180/10 1000 800 BU 500 500 - - 42 - - 7/151 1370 1370 1250 1400
T 240/10 1000 800 BU 600 600 - - 50 - - 7/151 1370 1370 1350 1530
T 360/10 1000 800 BN 800 800 - - 50 - - 8/171 1510 1510 1490 2000
T 450/10 1000 800 BU 1800 H 830 970 - - 50 - - 13/201 1685 1685 1360 2400
T 560/10 1000 800 BU 1800 H 1000 1230 - - 50 - - 13/231 1685 1685 1530 2550
T 800/10 1000 800 BU 1800 1800 - - 70 - - 15/251 1685 1685 1830 2800
                Al Al          
T 10/11 1100 950 A 70 20 50 - 16 321 0.41 3/51 860 860 790 550
T 20/11 1100 950 A 150 45 110 - 20 421 0.41 3/61 940 940 790 650
T 40/11 1100 950 A 300 90 230 - 26 581 0.41 3/71 1010 1010 880 750
T 80/11 1100 950 BU 200 200 520   50 1261 0.41 4/91 1110 1110 940 1050
T 110/11 1100 950 BU 300 300 790 - 60 1361 0.41 5/101 1200 1200 1040 1240
T 150/11 1100 950 BU 350 350 920 - 60 1471 0.41 5/101 1200 1200 1140 1330
T 180/11 1100 950 BU 500 500 1320 - 70 1681 0.41 7/151 1370 1370 1250 1400
T 240/11 1100 950 BU 600 600 1580 - 80 1801 0.41 7/151 1370 1370 1350 1530
T 360/11 1100 950 BN 800 800 2110 - 110 2001 0.41 8/171 1510 1510 1490 2000
T 450/11 1100 950 BU 1800 H 830 970 2570 - 110 2001 0.41 13/201 1685 1685 1360 2400
T 560/11 1100 950 BU 1800 H 1000 1230 3250 - 110 2201 0.41 13/231 1685 1685 1530 2550
T 800/11 1100 950 BU 1800 1800 4750 - 140 2401 0.41 15/251 1685 1685 1830 2800
                Cu Cu          
T 10/13 1300 1150 A 70 20 - 70 16 472 0.32 5/82 900 900 890 650
T 20/13 1300 1150 A 150 45 - 150 20 632 0.32 5/102 980 980 890 780
T 40/13 1300 1150 A 300 90 - 300 26 842 0.32 5/122 1050 1050 970 960
T 80/13 1300 1150 BU 200 200 - 650 50 1902 0.32 5/152 1150 1150 1030 1200
1Al at 700 °C
2CuZn at 1000 °C
3The specified melting performances are maximum values. In practice, approx. 80 % are achieved. Values for other materials, e. g. zinc, on request.
4Depending on furnace design connected load might be higher
5External dimensions vary when furnace is equipped with additional equipment. Dimensions on request.
6 Values for other materials, e. g. zinc, on request

見積依頼

見積依頼

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この特有プロセスにはどの炉が最適なのでしょうか?答えを見つけるのは容易ではありません。よって弊社ではお客様に弊社の代表的な炉ー多種のサイズで比類の無い現代技術を備えた多様の炉ーを試作目的用に準備しております。