The following parameters can be set in the 'ABULiner' parameter level of the LIS-SV.
|
Parameter |
Designation |
See |
|
5.10 |
Calling up the parameter level |
|
|
5.11 |
Activating the LIS-SV for the ABULiner |
|
|
5.11 |
Setting the gear ratio |
|
|
5.12 |
Activating double lifting speed |
|
|
5.14 |
Setting the run-on time of the auxiliary fan |
|
|
Danger during setting work! During setting work on the LIS-SV, monitoring of the wire rope hoist is switched off. This means the wire rope hoist cannot be monitored for excess load, among other things. This means the wire rope hoist cannot be monitored for excess load, among other things. This in turn means the load could fall and kill or injure people! Do not use the crane for normal work during setting work, and only lift loads very carefully for test purposes! |
All LIS-SV parameters which are important for the ABULiner are combined in a separate parameter level, which is shown as a submenu.
|
|
Move the load hook out of
the limit switch range (up or down).
During parameter setting, the load hook must not be within the limit switch range.
Open the menu of the
LIS-SV. See the documentation “Load indicator system LIS-SV”.
|
| |
|
Enter button |
Arrow buttons |
Select parameter 5.10.
Press ENTER.
● The 'ABULiner' parameter level is activated.
● Parameter 5.11 is displayed.
|
| |
|
Enter button |
Arrow buttons |
Select parameter 5.99.
Press ENTER.
● The previous parameter level is reactivated.
● Parameter 5.10 is displayed.
The LIS-SV is automatically activated for the ABULiner if a value is entered for the parameter 5.11.
In the ABULiner mode (a value is set for parameter 5.11):
─ The LIS-SV can monitor the total load for a maximum of two wire rope hoists.
─ Input F3 (normally used for measuring the load of wire rope hoist 3) now serves in monitoring the current rotational frequency of the hoist motor.
─ A value can be entered for parameter 3.0 (maximum load capacity of wire rope hoist 3). If a value is entered for this, parameter 5.11 cannot be set.
─ This interlocking thus excludes an incorrect setting.
─ The load-controlled switching point at output TxD of the LIS-SV cannot be used.
─ Parameter 4.5 (setting for load-controlled switching point) is not available.
In the normal mode (no value is set for parameter 5.11):
─ Operation of the ABULiner Lifting/Lowering unit is not possible.
─ The LIS-SV can monitor the total load for up to three wire rope hoists.
─ Input F3 serves in measuring the load of a third wire rope hoist.
─ A value can be entered for parameter 5.11 (gear ratio). If a value is entered for this, parameter 3.0 cannot be set.
─ This interlocking thus excludes an incorrect setting.
─ The load-controlled switching point at output TxD of the LIS-SV can be used.
─ Parameter 4.5 (setting for load-controlled switching point) can be used.
The LIS-SV uses the signal of the encoder and the gear ratio of the hoisting gear to calculate the hook travel distance, the maximum distance in the limit switch range and the current rotational frequency of the hoist motor. The gear ratio must be set on the machine.
|
| |
|
Cable speed |
|
Read off the type
designation at the type plate of the wire rope hoist.
Read off the cable
speed.
From this table, select
the gear ratio that matches the cable speed.
|
|
Cable speed | ||||
|
Hoist motor GM |
32 m/min at 50 Hz |
25 m/min at 50 Hz |
20 m/min at 50 Hz |
16 m/min at 50 Hz | |
|
800.4 |
50.01 |
63.49 |
77.77 |
98.16 | |
|
800.5 |
47.03 |
60.04 |
74.66 |
95.03 | |
|
1000.6 |
54.43 |
68.91 |
84.00 |
105.1 | |
|
1000.7 |
54.60 |
68.06 |
81.45 |
104.6 | |
|
2000.3 |
58.22 |
74.23 |
91.19 |
118.4 | |
|
3000.4 |
73.61 |
93.92 |
118.4 |
152.9 | |
|
5000.3 |
85.14 |
109.3 |
132.8 |
169.0 | |
|
5000.4 |
80.20 |
104.9 |
127.7 |
160.6 | |
|
6000.3 |
94.69 |
118.5 |
149.6 |
182.7 | |
|
7000.1 |
118.0 |
148.3 |
182.6 |
232.0 | |
Table: Gear ratios (numerical values) depending on hoist motor (lines) and cable speeds (columns) at 50 and 60 Hz.
|
| |
|
Enter button |
Arrow buttons |
Move the load hook out of
the limit switch range (up or down).
During parameter setting, the load hook must not be within the limit switch range.
Select parameter 5.11.
Press ENTER.
● The set value is displayed.
If the value is 0.00, the function is deactivated.
● Hold ENTER pressed.
● CODE is displayed.
Hold ENTER pressed.
|
| |
|
Enter button |
Arrow buttons |
Enter the code 1443.
Press ENTER briefly.
|
| |
|
Enter button |
Arrow buttons |
Set the value from the
table.
If the display ‘0.00’ cannot be changed, a value is set in parameter 3.0. In this case, set the value to zero first.
Press ENTER briefly.
A badminton racket CAD block is a pre-designed block of geometry that represents a badminton racket. It is typically created using computer-aided design (CAD) software and is available in various formats, such as DWG, DXF, and RVT. The CAD block includes the detailed design of the racket, including its frame, shaft, grip, and strings.
A badminton racket is a crucial piece of equipment in the sport of badminton. For designers, architects, and engineers, creating a detailed and accurate representation of a badminton racket can be a tedious task. This is where CAD blocks come into play. A CAD block is a pre-made block of geometry that can be easily inserted into a design file, saving time and effort. In this article, we will cover the concept of a badminton racket CAD block, its benefits, and how to use it. badminton racket cad block
A badminton racket CAD block is a valuable resource for designers, architects, and engineers who need to create detailed and accurate representations of badminton rackets. By using a CAD block, you can save time, ensure accuracy, and maintain standardization in design. With various CAD software programs and online sources available, finding and using a badminton racket CAD block is easier than ever. A badminton racket CAD block is a pre-designed
The auxiliary fan of the hoist motor continues to run for several minutes after the lifting or lowering. This ensures that the hoist motor is adequately cooled even at slow lifting speeds. The run-on time can be adjusted.
|
| |
|
Enter button |
Arrow buttons |
Move the load hook out of
the limit switch range (up or down).
During parameter setting, the load hook must not be within the limit switch range.
Select parameter 5.14.
Press ENTER.
● The set value is displayed.
|
| |
|
Enter button |
|
Set the value to between 3
and 10 minutes using the arrow buttons.
Press ENTER.
