XC series position controllers are suitable for various occasions that require positioning or fixed length. It can be statically positioned or fixed-length, and can also be dynamically positioned or fixed-length. The actuator can be a stepping motor, a servo motor, a frequency converter, or a clutch. , brakes, etc. It is also suitable for various process control by changing the software.
XC2006A/B position controller is an improved version of XC2005/XC2004, with 128×64 screen display. The product appearance, installation size and terminal block arrangement are consistent with XC2005A/B. A 12-dot matrix font display is used to observe the operating status of the machine.
The parameter set refers to XC2005, taking into account the ease of use and flexibility, and strives to cover most of the application models while making the operation as simple as possible. Some parameters are assigned by the computer, and can also be set manually if the user has other requirements.
The independent digital pulse module is used to improve the frequency accuracy, so that the operation of the feeding motor (hereinafter referred to as stepping motor) is more stable and the speed is improved. It supports double-stepping machinery (double-stepping or double-servo) and can adapt to double-color mark plus floating roller control mode.
Applicable models are rich and can be continuously expanded (rather than modified). At present, 9 basic models and 4 model options have been integrated inside the computer, which can be combined into multiple models.
Power supplying: 220V(AC)±10%;50Hz/60Hz; 2A
Application: Single, double film bottom sealing, heat cut bottom sealing
And other equipment which needs fixed-length position control.
Regardless of whether the main motor functioning was called 'running', to distinguish them from 'set up state'. Running under panels shown in figure 1, lamp and window display the system status and progress of the work. The indicator window and the meaning of data as follows:
To reduce the number of keys, most of the control panel buttons are designed for dual-function keys, in different states under different definitions of the function. The key is defined as follows:
|Pressed key||Running status||Establishment condition|
|[Run]||Starts the main electrical machinery||Invalid|
|[Stop]||Stops the main electrical machinery||Gives up all revisions, returns to the running status|
|[Parameter]||Enters the establishment condition||Choose the next parameter|
|[Preservation]||Enters the establishment condition||Clicks: Choose the next menu|
Long presses: Preserved parameter
|[0 / Clear zero]||Elimination quantity||Numeral '0'|
|[1 / Self-checking]||Opens/closure self-checking||Numeral '1'|
|[2 / for B]||Electrical machinery B for||Numeral '2'|
|[3 / for A]||Electrical machinery A for||Numeral '3'|
|[4 / Color]||Revision color code condition||Numeral '4'|
|[5 / back B]||Electrical machinery B back (XC2005A)||Numeral '5'|
|[6 / back A]||Electrical machinery A back (XC2006A)||Numeral '6'|
|[8 / Polarity B]||Revises the GK4 polarity||Numeral '8'|
|[9 / Polarity A]||Revises the GK3 polarity||Numeral '9'|
Due to the differences in models, the functions of the jog buttons are different.
Color mark search: When making a color bag, the stepper motor starts to search for the color mark after the [Click] button is released, until the color mark is selected or the key is pressed again to stop early.
Measuring length: Set the color selection to be valid and turn on the self-test function, press [Click A] (or [Click B]) to continuously search for the color code twice, and then the bag-making length can be measured.
Hall Sensor Installation
The Hall switch is an important part to coordinate the work of the main motor and the stepper motor, reflecting the cycle, phase, and other information of the working machine, and is essentially a time distributor. If there is a deviation in these information, it will affect the electromechanical coordination, resulting in poor working conditions or reduced efficiency. The following describes the installation requirements in conjunction with Figure 5.
Position A: The opening position of the cutter, the starting position of feeding, the feeding process must be completed before the position C, otherwise it will stop at overspeed.
B position: The stop position for all stop operations. Due to inertia, it will actually stop after position B, and the cutter is at the highest position at this time. (For some models) the start of the stripping signal and the end of the stripping signal are related to the number of empty cuts.
C position: the falling position of the cutter, the limit position of feeding. Move the C position back as far as possible under the condition of the machine, which can improve the efficiency, and the end position of the eager cutting machine unloading signal.
D position: (for some models) the stripping signal starts, and the stripping signal ends after a delay, and the end has nothing to do with the position.
E position: (for the return model), the starting position of the material return, the material return process must be completed before the next A position, otherwise the machine will stop at overspeed. Down blow signal starts.
F position: end of down blowing signal.