SWP-RLK with printed flow integrator controller product features:
Five digit instantaneous flow+eight digit instantaneous cumulative display
The SWP-LED strip printing flow accumulation control instrument integrates printing, control, and measurement display. It can automatically schedule and manually print the current measurement values and cumulative flow values of each channel in real-time.
1、 Instrument features
1. The input signal type of the instrument can be freely changed with the printing flow accumulation controller. By adopting the latest jumper free technology, the instrument can be changed from one input signal to another by simply setting the internal parameters of the instrument. Further improving the versatility and reliability of the instrument.
2. The flow accumulation control instrument with printing has an extremely wide display measurement range, which can switch between displaying instantaneous flow measurement values, temperature compensation measurement values, pressure compensation measurement values, flow (differential pressure, frequency) measurement values, etc., as well as ten digit flow accumulation measurement values (0-999999999 words) that can be accurately accumulated to three decimal places (0.001). The internal parameters of the instrument can be set to achieve a maximum accumulation of 9999999999.99'100.
3. The printing flow accumulation control instrument adopts the table lookup method for density compensation, which can automatically perform high-precision accumulation control on superheated steam and saturated steam.
2、 SWP-RLK with printed flow integrator controller appearance and wiring diagram (the following is the basic wiring, please refer to the random wiring diagram for special orders)
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model |
SWP-RLK80 series |
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Instrument appearance |
Instrument size: 360 × 140 × 230mm Weight: 1500g |
Micro printer aperture size 111mm × 57mm |
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pick up
line
Picture |
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3、 SWP-LED series with printed flow integrator control instrument type chart
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model |
code |
Instructions |
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SWP -RLK |
□ □ □- □ □-□ □ □ -□ □ -□- □ |
5-digit+8-bit flow integrator controller with printing function |
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Overall dimensions |
eight |
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160 × 80mm (horizontal) |
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Control function |
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| Uncompensated input |
| Compensated input |
| Overheated steam with temperature and pressure compensation - lookup table method |
| Saturated steam with temperature and pressure compensation - lookup table method |
| User specific curve compensation input table lookup method | |
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contact method |
□ |
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Refer to "Communication Methods" |
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output method |
□ |
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Refer to 'Output Method' |
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Traffic signal type |
□ |
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Refer to 'Input Types' |
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Pressure compensation type |
□ |
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Refer to 'Input Types' |
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Temperature compensation type |
□ |
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Refer to 'Input Types' |
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The first alarm method |
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| No control (or alarm, can be omitted) |
| Upper limit control (or alarm) |
| Lower limit control (or alarm) |
| Quantitative flow to control - automatic start |
| Quantitative Flow Process Control - Automatic Start |
| Quantitative flow to control - automatic reset | |
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Second alarm method |
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| No control (or alarm, can be omitted) |
| Upper limit control (or alarm) |
| Lower limit control (or alarm) |
| Quantitative flow to control - manual start |
| Quantitative flow process control - manual start | |
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Feed output |
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| No feed output (can be omitted) |
| Single channel DC24V power supply output |
| Dual channel DC24V power supply output | |
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power supply method |
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AC 220V power supply (linear power supply, can be omitted) | |
input type
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code |
input type |
Measurement range |
code |
input type |
Measurement range |
Instructions |
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A |
4~20 mA |
-1999~99999 d |
O |
Pulse collector open circuit |
0~5KHz |
The maximum range listed in this table can be determined by modifying the secondary parameters of the instrument within the range |
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B |
0~10 mA |
-1999~99999d |
G |
Pt100 |
-200~650℃ |
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C |
1~5V |
-1999~99999d |
E |
Thermocouple E-type |
0~1000 ℃ |
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D |
0~5V |
-1999~99999d |
K |
Thermocouple K-type |
0~1300 ℃ |
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M |
0~20 mA |
-1999~99999d |
R |
User specific |
-1999~99999 d |
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F |
Pulse |
0~5KHz |
N |
Uncompensated input |
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output method
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Selection code |
0 |
one |
two |
three |
four |
five |
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output method |
No output |
relay |
4~20mA |
0~10mA |
1~5V |
0~5V |
contact method
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Selection code |
0 |
two |
four |
eight |
nine |
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contact method |
No communication |
RS-232 |
RS-422 |
RS-485 |
Special specifications |
Note: The RLK802, RLK803, and RLK804 series can be switched between each other by setting the secondary parameters of the instrument.
Except for the two input signals of 0-20mA and pulse collector open circuit, all other signals of the instrument can be freely changed by setting the secondary parameters of the instrument.
Model example:
①SWP-RLK801-21-A-HL-P
No compensation input, communication method RS232, relay output, flow input type 4-20 mA, the first alarm is the upper limit alarm, the second alarm is the lower limit alarm, single DC 24V power supply output, AC 220V power supply.
②SWP-RLK802-81-FAG-LH-2P-T
Equipped with compensation input, communication method RS485, relay output, flow input type pulse, pressure compensation input type 4-20 mA, temperature compensation input type Pt100, the first alarm is the lower limit alarm, the second alarm is the upper limit alarm, dual DC 24V power supply output, AC 90-265V power supply.
When ordering, LE, HK, HE series flow/volume integrator controllers with printing can also be selected, and the wiring method is the same as RLK. The popularization function of instruments with printing is suitable for LED flow meters, LED-32 segment PID, and LCD series. When placing an order, it is necessary to add R to the prototype number with the printer box, and refer to the random wiring diagram for the wiring method