耦合传动装置说明书翻译-中英对照
浮动式控制和调节控制的非弹簧恢复直接耦合传动装置
产品数据
规格
电源电压 24 Vac/dc -15%/+20%, 50/60赫兹
标称电压 24 Vac/dc, 50/60 赫兹
以下所列的全部数值都可适应于标称电压条件下的操作情况。
功耗
CN7505 5 VA / 2 W
CN7510 5VA/2 W
概要
本非弹簧恢复直接耦合传动装置提供了调节式和浮动式/2-位置控制:
• 空气阻尼器,
• 变风量机组,
• 空气处理装置,
• 通风瓣,
• 遮光罩, 以及
• 可控制的空气阻尼器使用范围为10 sq ft / 44 Ib-in. (5 Nm) 和 20 sq ft / 88 Ib-in. (10 Nm) (未封盖的阻尼叶片; 由空气摩擦力而定)。
特征
• 手动调节的分开离合器
• 可调节的机械终止极限
• 直接接线的可移动检修盖
• 可以任何方位安装
• 功能选择开关用于选择调节式或浮动式/2-位置控制。
控制信号
调节式 (0)2...10Vdc
浮动式/2-位置 24 Vac/dc
周围环境限制值
周围环境的操作限制值 -5...+140°F(20...+60°C)
环境贮存极限值 -22..,+176°F(-30...+80°C)
相对适度 5...95%, 非冷凝状态
安全性
保护标准 IP54
保护登记 II 级 符合标准 EN 60730-1
过电压类别 II
使用寿命
全方位使用 60000
重新配置 1,500,000
安装
圆形减震轴 3/8 英寸...5/8 英寸.
方形减震轴 1/4 英寸..1/2 英寸; 45° 额幅度
轴长 最小尺寸. 1-5/8 英寸
终止开关 (当包含在内时)
等级级别 等级 ll
启动触点 5° / 85°
扭矩等级 44 Ib-in. (5Nm) / 88 Ib-in. <10Nm)
旋转行程 95° + 3°
尺寸 见第8页的“尺寸”部分
重量 (不含缆线) 1.0 lbs.
噪声等级 1米处的最大值35 dB(A)
©U.S. Registered Trademark
Copyright © 2005 Honeywell Inc. All rights reserved
63-6233T CNOB-0545CH33 R0805
N05.N10 系列用于浮动式控制和调节控制的传动装置
产品鉴定系统
C-电动发动机
[N-失效保险功能 (非弹簧恢复)
61-24伏 浮动式控制
75-24伏 调节式控制
05-44 Ib-in. (5 Nm)
10-88 Ib-in. (10 Nm)
A-标准模式
1-无反馈信息
2-电压反馈信号
包装中的内容
交付包装包括传动装置,穿过6的零部件1 (见图1), 加上2根缆线索环和一个备用的缆线索环。
运行模式
功能选择开关(见图2)可以将传动装置置于两种不同模式中的任何一种:
•服务状态/关闭;或
• 浮动式/2-位置运行模式("Dir" 用于CCW-合闸阻尼器或;'Rev" 用于CW-合闸阻尼器).
•调节式运行模式
调节式的 浮动式2-位置 服务状态/关闭
'服务状态/关闭t*
0-无内部辅助开关
2-2个内部辅助开关
|XX-系统控制号
c N 75 10 |A 2 0 XX
基本特征 M23089
图1. 固定装置及控制元件
有关图1的图例:
1) 通用型传动轴接头
2) 机械终端限制(手动调节)
3) 分开离合器按钮
4) 功能选择开关
5) 可移动的检修盖
6) 抗旋转支架
图 2. 功能选择开关
断电行为
如果断电的情况下, 传动轴接头仍位于原位。
服务/关闭
如果功能选择开关被设置在“服务/关闭”位置,然后所有的转动动作都已取消,且全部的控制信号都被忽略,因此允许在传动装置进行手动操作。
浮动式/2-位置运行模式
无返回信号
如果功能选择开关已被设置于两个浮动/2-位置控制装置其中一个的上面-但是传动装置还没有接好反馈信号线(参见图12和图13)-然后当进行操作时,传动轴接头将根据适当的控制信号运行。
有反馈信号
如果功能选择开关已被设置于两个浮动/2-位置控制装置其中一个的上面—且传动装置已经连接有反馈信号线(参见图12和图13)-然后当进行操作时,首先传动轴接头将同样的完全按照反时针方向运行,然后再完全顺时针方向运行(也可参见段落”适用性”),在此之后,其将根据适当的控制信号运行。
调节式运行模式
如果功能选择开关已被设置于四个调节式控制装置中一个的上面时—且如果传动装置已经按照相应的要求接线(参见图10)-然后当进行操作时,首先传动轴接头将同样的完全按照反时针方向运行,然后再完全顺时针方向运行(也可参见段落”适用性”),在此之后,其将根据适当的控制信号运行。
63-6233T CM0B-0545CH33 R0805
N05.N10 系列用于浮动式控制和调节控制的传动装置
表1 描述了浮动模式,传动轴接头的动作(“停止”,旋转“CCW”,或旋转“4CW”)依赖于适用在接线端3和接线端4以及功能选择开关装置上的控制信号。表2 描述了2-位置模式,传动轴接头的动作(“停止”,旋转“CCW”,或旋转“4CW”)依赖于适用在接线端3和接线端4以及功能选择开关装置上的控制信号。
表3 描述了调节式模式,传动轴接头的动作(“停止”,旋转“全部CCW”,旋转“全部CW”,运行至“成比例的”位置,或运行至最大行程的50%处)依赖于适用在接线端3和接线端4以及功能选择开关装置上的控制信号。
表1
浮动模式中的传动轴接头动作
控制信号位于 开关设置
接线端3 接线端4 0[2]...10伏 Dir 服务状态/关闭 Rev 10...0[2] 伏
打开 打开 -- 停止 停止 停止 --
打开 24 Vac/dc -- CCW 停止 CW --
24 Vac 打开 -- CW 停止 CCW --
表 2.
2-位置模式中的传动轴接头动作
控制信号位于 开关设置
接线端3 接线端4 0[2]...10伏 Dir 服务状态/关闭 Rev 10...0[2] 伏
24 Vac 打开 -- CW 停止 CCW --
24 Vac 24 Vac/dc -- CCW 停止 CW --
表 3.
调节模式中的传动轴接头动作
控制信号位于 开关设置
接线端3 接线端4 0[2]...10伏 Dir 服务状态/关闭 Rev 10...0[2] 伏
打开 打开 全部 CCW -- 停止 -- 全部 CCW
24 Vac/dc 50% -- 停止 -- 50%
< 最小控制信号加上0.24 伏 打开 全部CCW -- 停止 -- 全部 CW
24 Vac/dc 50% -- 停止 -- 50%
在最小控制信号加上0.24伏与最大控制信号减去0,24伏之间 打开 成比例的 --- 停止 -- 成比例的
24 Vac/dc 50% -- 停止 -- 50%
> 最大控制信号减去0.24 伏 打开 全部 CW -- 停止 -- 全部 CCW
24 Vac/dc 50% -- 停止 -- 50%
63-6233T CNOB-0545CH33 R0805
N05.N10 系列用于浮动式控制和调节控制的传动装置
Upper dead band 上静区
Range of proportional actuator movement 对称的执行器移动
Lower dead band 下静区
Final position of shaft adapter (of MAX stroke)传动轴接头的最终位置(最大行程)
图-3.传动轴接头的位置(例:功能选择开关的设定0.10 V)和控制信号的关系
Current position of shaft adapter (of MAX stroke)传动轴接头的当前位置(最大行程)
Feedback signal 反馈信号
图4。 反馈信号和当前传动轴接头位置的关系(例:功能选择开关的设定0.10 V)
适应
适应功能是指,执行器根据机械末端限制的反馈信号和控制信号的重新定位,(参见图6)从而确定新的位置。
New position upper mechanical end limit 上机械终端限制的更新位置
Final position of actuator (of MAX)执行器的最终位置(最大值)
After adaption 适应后
Before adaption 适应前
Final position of actuator (decrees) 执行器的最终位置(规定位置)
Control signal 控制信号
图-5 适应 功能选择开关的设定(0…10 V)
适应进行时,无论执行器可处于调节方式或浮动正反馈方式或2个位置和反馈方式以及:
● 用户(未通电状态)给执行器通电;或
● 用户确定功能开关选择设定在“服务/断开”适合至少2秒,然后返回原先设定; 或
● 将控制信号调节到上静区(例如:大于最大值,控制信号减去0.24V)或调节到下静区(例如:小于最大值,控制信号加上0.24V),在此之后,轴改编者必须在各自的(上面或者更低) 机械末端限制保持至少3秒。这样执行器将确定机械末端限制各自的(上下)的位置。
优先
优先是指调节状态执行器终端4使用24 V的信。从而引起执行器在末端3优先控制信号,移动到其最大行程50%的位置(参见表格3)。
反馈
如果在末端5提供有相应的配线(参见图10 图11和图12)和执行器,反馈用信号和传动轴接头的实际位置成正比。
手动调节
重要
为防止损害设备,在手动调节前,你必须断开电源或确定功能选择开关设定在"服务/离"位置。
N05,N10 SERIES
NON-SPRING RETURN DIRECT-COUPLED DAMPER ACTUATORS FOR MODULATING AND FLOATING CONTROL
PRODUCT DATA
SPECIFICATIONS
24 Vac/dc -15%/+20%, 50/60 Hz 24 Vac/dc, 50/60 Hz
Supply voltage Nominal voltage
Alt values stated hereinafter apply to operation under
nominal voltage conditions.
Power consumption
CN7505 5 VA / 2 W
CN7510 5VA/2 W
GENERAL
This non-spring return direct-coupled damper actuator provides modulating and floating/2-position control for:
air dampers,
VAV units,
air handlers,
ventilation flaps,
louvers, and
reliable control for air damper applications with up to 10 sq ft / 44 Ib-in. (5 Nm) and 20 sq ft / 88 Ib-in. (10 Nm) (seal- less damper blades; air friction-dependent),
FEATURES
Declutch for manual adjustment Adjustable mechanical end limits • Removable access cover for direct wiring Mountable in any orientation
Function selection switch for selecting modulating or floating/2-position control
Control signal
Modulating (0)2...10Vdc
Floating/2-Position 24 Vac/dc
Ambient limits
Ambient operating limits -5...+140°F(20...+60°C)
Ambient storage limits -22..,+176°F(-30...+80°C)
Relative humidity 5...95%, non-condensing
Safety
Protection standard IP54
Protection class II as per EN 60730-1
Overvoltage category II
Lifetime
Full strokes 60000
Repositions 1.5 million
Mounting
Round damper shaft 3/8 in...5/8 in.
Square damper shaft 1/4 in...1/2 in.; 45° steps
Shaft length min. 1-5/8 in.
End switches (when included)
Rating Class il
Torque rating Rotation stroke
Triggering points 5° / 85°
44 Ib-in. (5Nm) / 88 Ib-in. <10Nm) 95° + 3°
Dimensions see "Dimensions" on page 8
Weight (without cables) 1.0 lbs.
Noise rating 35 dB(A) max. at 1 m
©U.S. Registered Trademark
Copyright © 2005 Honeywell Inc. All rights reserved
63-6233T CNOB-0545CH33 R0805
N05.N10 SERIES DAMPER ACTUATORS FOR MODULATING AND FLOATING CONTROL
PRODUCT IDENTIFICATION SYSTEM
C-Electrical Motor
[N-Fail Safe Function (Non-Spring Return)
61-24V Floating Control
75-24V Modulating Control
05-44 Ib-in. (5 Nm)
10-88 Ib-in. (10 Nm)
A-Standard Model
1-No Feedback
2-Voltage Feedback Signal
Contents of Package
The delivery package includes the actuator, parts 1 through 6 (see Fig. 1), plus two cable grommets and a spare cable grommet.
RUN MODES
The function selection switch (see Fig. 2) can be used to place the actuator into any one of two different modes:
Service/Off; or
• the floating/2-position run mode ("Dir" for CCW-closing
dampers or ;'Rev" for CW-closing dampers).
* the modulating run modle.
MODULATING FLOATINGf2-POSITION SERVICEOFF
'.Service/Oft*
0-No Internal Auxiliary Switches
2-Two Internal Auxiliary Switches |XX-System Controlled Numbers
c N 75 10 |A 2 0 XX
BASIC FEATURES
©
Fig. 1. Setting units and control elements
Legend for Fig. 1:
1) Universal shaft adapter
2) Mechanical end limits (manually adjustable)
3) Declutch button
4) Function selection switch
5) Removable access cover
6) Anti-rotation bracket
Fig. 2. Function selection switch
Power-Off Behavior
If power is removed, the shaft adapter remains in position,
Service/Off
If the function selection switch is set to the "Service/Off' position, then all rotary movement is cancelled, and all control signals are ignored, thus allowing the actuator to be manually operated
Floating/2-Position Run Mode
Without Feedback Signal
If. however, the function selection switch has been set to one of the two floating/2-position control settings - but the actuator has not been wired for a feedback signal (see Fig. 12 and Fig. 13) -then as soon as operating power is applied, the shaft adapter will run according to the control signals applied.
With Feedback Signal
If the function selection switch has been set to one of the two floating/2-position control settings - and if the actuator has been wired for a feedback signal (see Fig. 12 and Fig. 13) - then as soon as operating power is applied, the shaft adapter will likewise run first completely counterclockwise and then completely clockwise (see also section "Adaption"), after which it will run according to the control signals applied.
Modulating Run Mode
If the function selection switch has been set to one of the four modulating control settings - and if the actuator is wired correspondingly (see Fig. 10) - then as soon as operating power is applied, the shaft adapter will run first completely counterclockwise and then completely clockwise (see also section "Adaption"), after which it will run according to the control signals applied.
63-6233T CM0B-0545CH33 R0805
N05.N10 SERIES DAMPER ACTUATORS FOR MODULATING AND FLOATING CONTROL
Table 1 describes, for the floating mode, the shaft adapter behavior ("stops," rotates "CCW," or rotates 4CW) in dependence upon the control signals applied to terminals 3 and 4 and upon
the function selection switch setting.
Table 2 describes, for the 2-position mode, the shaft adapter behavior ("stops," rotates "CCW," or rotates CW) in dependence upon the control signals applied to terminals 3 and 4 and upon the function selection switch setting.
Table 3 describes, for the n-odiiatng mode, the shaft adapter behavior ("stops," rotates "totafy CCW." rotates "totally CW," runs to "proportional" position, or -uns to "50%' of max. stroke) in dependence upon the control signals applied to terminals 3 and 4 and upon the function sctoction swwfcji setting.
Table!
Shaft adapter behavior in the floating mode
control signal at switch settings
terminal 3 terminal 4 0[2]...10V Dir Service/Off Rev io...rj[2]v
open open — stops stops E:; ;S _
open 24 Vac/dc -- CCW stops —
24 Vac open - CW stops CCW -
Table 2.
Shaft adapter behavior in the 2-position mode
control signal at switch settings
terminal 3 terminal 4 0[2]...10V Dir Service/Off Rev 1O...0[2]V
24 Vac open -- CW stops CCW
24 Vac 24 Vac/dc - CCW stops CW —
Tabie 3.
Shaft adapter behavior in the modulating mode
control signal at switch settings
terminal 3 terminal 4 012]...10V Dir Service/Off Rev 10...0[2] V
upon open totally CCW stop totally CCW
24 Vac/dc 50% stop < min control signal plus 0.24 V open totally CCW - stop totally CW
24 Vac/dc 50% -- stop 50c -.
between min. control signal plus 0.24 V and max. control signal minus 0,24 open proportional - stop - proportional
24 Vac/dc 50% — stop - 50%
> max. control signal minus 0,24 V open totally CW -- stop totally CCW
24 Vac/dc 50% - stop -- 50%
63-6233T CNOB-0545CH33 R0805
N05.N10 SERIES DAMPER ACTUATORS FOR MODULATING AND FLOATING CONTROL
100 . I BEFORE)
UPPER DEAD BAND (9 76 TO 10.0 V]
iBEFOREj1
Fig 5.
X
50 - -
RANGE OF PROPORTIONAL
ACTUATOR MOVEMENT
(0.24 TO 9.76 V)
* LOWER DEAD BAND (0 TO 0.24 V|v'
50 CONTROL SIGNAL (V)
NEW POSITION OF UPPER! CONTROL SIGNAL (V)
UI3O93
Adaption (function selection switch set to 0...10 V)
Fig 3. Final shaft adapter position in dependence upon control signal (example function selection switch setting of 0..10 V)
1
S <
FEEDBACK SIGNAL (VI
Fig 4. Feedback signal in dependence upon current position of shaft adapter (example function selection switch setting of 0...10 V)
Adaption
Adaption is a function in which the actuator re-maps its feedback signal and control signal in accordance with repositioned mechanical end limits (see also Fig. 6) and thus recognizes their new positions
Adaption will be carried out whenever the actuator is in the modulating mode or the floating plus feedback mode or the 2-position plus feedback mode and
the user powers up (from a totally powerless condition) the actuator; or
the user sets the function selection switch to the "Service/ Off: setting for at least 2 seconds and then back to its previous setting; or
the control signal's value rises up into the upper dead band (i.e. to more than the max. control signal minus 0,24 V) or drops down into the lower dead band (i.e. to less than the min. control signal plus 0.24 V), after which the shaft adapter must then remain at the respective (upper or lower) mechanical end limit for at least 3 seconds. However, in this case, the actuator will then recognize the position of oniy the respective (upper or lower) mechanical end limit.
Overriding
An override is a condition in which a 24 V signal is applied to terminal 4 of an actuator in the modulating mode, thus causing the actuator to ignore the control signal at terminal 3, whereupon it will instead move to a position of 50% of its maximum stroke (see Table 3).
Feedback
If correspondingly wired (see Fig. 10, Fig. 11 and Fig. 12), the actuator provides, via terminal 5, a feedback signal proportional to the actual position of the shaft adapter
MANUAL ADJUSTMENT
IMPORTANT
To prevent equipment damage, you must remove power or set the function selection switch to the "Service/Off" position before manual adjustment.
2012.12.21