TRICONEX 3625A工控自動化卡件
伺服驅動模塊KDS在冷運行技術方面具有優勢模塊化單元的大部分熱損失直接輸出,并且不會在控制柜內積聚。這就是為什么冷運行技術版本可嵌入小型機柜或外殼,無需需要通過昂貴的熱量進行廣泛的熱量傳輸交換器。可使用外部風扇強制通風,該風扇可作為如果功率要求更高,則增加一組。
通風裝置的電氣部件保護性地位于控制柜,如圖41所示。電源的散熱器部分和風扇轉子位于控制柜或外殼外部。裝置通過安裝框架安裝在控制柜的后壁,使驅動器散熱片面板伸出控制柜。
控制柜中的開口用密封墊密封冷運行型的安裝法蘭(參見安裝圖,圖52,第5.2.4章)。伺服驅動模塊和外部風扇安裝并可在控制柜內部更換。
數據表和選擇列表中列出的數據在以下情況下有效:限制,如果伺服驅動模塊在環境中運行控制柜內的溫度范圍為+5至+45°C。最大允許環境溫度為+55°C。
數據表中列出的平均電機電流和轉矩值
每攝氏度或開爾文溫度變化減少2%在+45…55°C的溫度范圍內。
最大安裝高度為海拔1000米。這個下圖描述了平均電機電流值的降低高度較高時的扭矩:必須絕對保持與相鄰裝置的最小間隙以保證充分的熱傳遞和循環。控制柜安裝區域(內部)內的溫度
不應超過45°C。強制通風,以避免堵塞熱量,以及最大單位電流降低2.5%/K,變成最高溫度為55°C時,需要更高的值。如果使用ICE裝置,則控制裝置的內部溫度機柜必須至少保持在2攝氏度以上外部溫度,以防止bedewing。印刷品的壓印電路板可能導致驅動器故障。
產生熱量的內置部件不應直接安裝在下方伺服驅動模塊
Servo drive module KDS in cold-running technology has the advantage
that most of the heat loss of the modular units is fed directly out and does
not accumulate inside the control cabinet. This is why the cold-runnng
technology version can be built into small cabinets or housing without
necessitating the extensive transmission of heat via an expensive heat
exchanger.
Ventilation can be forced using an external fan, which can be supplied as
an additional set, if power requirements are greater.
The electrical parts of the ventilation are protectively located within the
control cabinet, as depicted in Figure 41. The heatsink of the power
section and the fan rotor are outside of the control cabinet or housing.The units are mounted by means of a mounting frame in a space on the
back wall of the control cabinet in such a way that the drive heatsink with
panelling juts out of the control cabinet.
The opening in the control cabinet is tightly sealed with a gasket at the
mounting flange of the cold-running version (see mounting drawing,
Figure 52, in Chapter 5.2.4). The servo drive module and the external fan
are mounted and can be exchanged on the inside of the control cabinet.
The data listed on the data sheets and selection lists are valid without
restriction, if the servo drive module is operated within an ambient
temperature range inside the control cabinet of +5 to +45°C.
Maximum permissible ambient temperature is +55°C.
The values for mean motor current and torque listed in the data sheets
are reduced by 2% per degree Celsius or Kelvin of temperature change
within the temperature range of +45 ... 55°C.
Maximum mounting altitude is 1000 meters above sea level. The
following diagram depicts the reduction in values for mean motor current
and torque at higher altitudes:The minimum clearance to adjacent units must be absolutely maintained
to guarantee sufficient heat transmission and circulation.
The temperature within the mounting area (interior) of the control cabinet
should not exceed 45°C. Forced ventilation, to avoid dammed up heat,
as well as a reduction in the max. unit current, by 2.5% / K., become
necessary with higher values, up to max. 55°C.
If a cing device is used, then the internal temperature of the control
cabinet must be maintained at a minimum of 2 degrees Celsius above
external temperatures to prevent bedewing. Bedewing of a printed
circuit board can cause drive failure.
Heat-producing built-in parts should not be installed directly underneath
the servo drive module