IMV's dynamic simulation systems have been developed with "intelligence" in mind and endeavour to support customers testing. The new Eco technology has been used in the IMV range.
Complicated settings are not needed.
Electricity consumption might be managed manually on electrodynamic systems, but this could be quite difficult for the system operator to optimise the consumption due to payload and test conditions. Our ECO-Shaker can achieve optimisation of power consumption refering to payload conditions.
You can confirm the result of reduction of CO2 and electricity consumption at glance.
By combination with IMV vibration controller ‘K2’ , ECO-shaker system will confirm real-time electricity consumption during testing. It was never available by conventional systems. Power consumption can be reported numerically after each test.
You can expect improvement of laboratory environment.
Noise to be expected from the conventional test system will give limitaion to installation place selection. Our ECO-Shaker can suppress the noise level by controlling the engine blower at optimised speed. Optimum control of the cooling system will reduce power consumption and noise level refering to test conditions.
We will contribute to well being of society from both sides of quality and environmentt
By Clean Development Mechanism (CDM) in January 2008 and revision of Rationalisation in Energy Use law in April 2009 were introduced in Japan, all enterprises have been obliged to be more energy efficient. ECO-Shaker promotes reduction of costs and CO? by saving electricity consumption, costs, and consequently contributes to society.
Real automatic energy saving driving
Complicated settings are not needed.
ECO-shaker is a electrodynamic vibration test system which automatically optimize output of power amplifier, power input to vibration and cooling blower rotation speed refering to payload and test conditions. So, complicated manual settings are not needed anymore. Since it is real automatic control according to working environment conditions, "drastic change in output levels due to change of test sample characteristics during the test", "temperature up in system caused by rising heat during operation" etc.. even if those phenomenon happen, it is possible to keep operation without stopping the test.
You can confirm reduction of CO2 and electricity consumption at real-time.
By combination with IMV vibration controller ‘K2’ , ECO-shaker system will confirm real-time electricity consumption during testing. It was never available by conventional systems. Power consumption can be reported numerically after each test, which clearly shown on monitor or display. So you can confirm the result at glance.
Comparison of electricity consumption with conventional shaker
The less system output, the more saving-energy you can expect.
Figures are calculated by comparing with conventional system of same sine force rating. Results may vary for system models, test conditions.
Operation of ISM-EM (Power consumption)
Power consumption on conventional vibration systems would require manual calculation refering to test conditions. ISM-EM technology of the ECO-Shaker can automatically control the output of the power amplifier, force generation of the shaker, and rotation speed of the cooling blower to achieve best efficiency refering to test conditions.
Correspondence to existing system [Retro fit]
Saving energy by ISM-EM technology can be applied on existing IMV vibration test systems by adding the ISM-EM unit and some calibrations. Contact us for further information and delivery.
|
System Model |
EM2201 |
EM2301 |
EM2401 |
EM2501 |
EM2502 |
EM2551 |
EM2601 |
|
System Specifications |
Freq. Range(Hz) |
0~3300 |
0~3000 |
0~2600 |
0~2500 |
0~2500 |
0~2600 *5) |
0~2600 *5) |
|
Rated Force |
SINE(kN) |
8 |
16 |
24 |
32 |
40 |
49 |
54 |
|
RANDOM(kNrms)*2) |
8 |
16 |
24 |
32 |
40 |
49 |
54 |
||
SHOCK(kN) |
16 |
32 |
48 |
64 |
80 |
98 |
108 |
||
Max. Acc. |
SINE(m/s2) |
1250 |
1250 |
1200 |
914 |
1142 |
907 |
1000 |
|
RANDOM(m/s2rms) |
875 |
875 |
840 |
640 |
800 |
635 |
700 |
||
SHOCK (m/s2) |
2500 |
2500 |
2400 |
1828 |
2284 |
1814 |
2000 |
||
Max. Vel. |
SINE(m/s) |
2.2 |
2.2 |
2.2 |
2.2 |
2.2 |
2.2 |
2.2 |
|
SHOCK(m/s) |
2.2 |
2.2 |
2.2 |
2.2 |
2.2 |
2.2 |
2.2 |
||
Max. Dsp. |
SINE(mmp-p) |
51 |
51 |
51 |
51 |
51 |
51 |
51 |
|
Max. TRAVEL (mmp-p) |
60 |
64 |
68 |
68 |
68 |
64 |
64 |
||
Max. Load.(kg) |
200 |
300 |
400 |
600 |
600 |
1000 |
1000 |
||
Power Requirements(kVA)*1) |
16.4 |
26 |
36 |
51 |
57 |
80 |
83 |
||
Vibration Generator |
Model |
i220 |
i230 |
i240 |
i250 |
i250 |
i255 |
i260 |
|
Armature Mass(kg) |
6.4 |
12.8 |
20 |
35 |
35 |
54 |
54 |
||
Armature Diameter(φmm) |
190 |
200 |
290 |
440 |
440 |
446 |
446 |
||
Allowable eccentric moment (N・m) |
294 |
700 |
850 |
1550 |
1550 |
1550 |
1550 |
||
Dimensions(mm)W×H×D |
1020x 903x 550 |
1124x 957x 860 |
1234x 997x 890 |
1463x 1187x 1100 |
1463x 1187x 1100 |
1527x 1196x 1100 |
1527x 1196x 1100 |
||
Mass(kg) |
900 |
1500 |
2000 |
3000 |
3000 |
3500 |
3500 |
||
Power Amplifier |
Model |
SA1M- i20EM |
SA2M- i30EM |
SA3M- i40EM |
SA4M- i50EM |
SA5M- i50EM |
SA7M- i55EM |
SA7M- i60EM |
|
Max. Output(kVA) |
10 |
20 |
29 |
40 |
50 |
58 |
64 |
||
Dimensions(mm)W×H×D |
580x 1750x 850 |
580x 1750x 850 |
580x 1750x 850 |
580x 1950x 850 |
580x 2100x 850 |
1160x 1950x 850 |
1160x 1950x 850 |
||
Mass(kg) |
330 |
350 |
460 |
900 |
930 |
1400 |
1400 |
||
Controller |
Vibration Controller |
See Vibration Controller K2 |
|||||||
Cooling |
Cooling Method |
Air cooling |
|||||||
Blower |
Dimensions(mm) W×H×D |
492x 1128x 627 |
606x 1315x 844 |
707x 1531x 896 |
1057x 1841x 1078 |
1057x 1841x 1078 |
1328x 2140x 1033 |
1328x 2140x 1033 |
|
Mass(kg) |
70 |
125 |
210 |
250 |
250 |
370 |
370 |
Specifications (Large Displacement Type)
|
System Model |
EM2305 |
EM2405 |
EM2505 |
EM2506 |
EM2555 |
EM2605 |
|
System Specifications |
Freq. Range(Hz) |
0~3000 |
0~2400 |
0~2200 |
0~2200 |
0~2600 *5) |
0~2600 *5) |
|
Rated Force |
SINE(kN) |
16 |
24 |
35 |
40 |
49 |
54 |
|
RANDOM(kNrms)*2) |
16 |
24 |
35 |
40 |
49 |
54 |
||
SHOCK(kN) |
40 |
55 |
70 |
80 |
98 |
108 |
||
Max. Acc. |
SINE(m/s2) |
941 |
923 |
777 |
888 |
777 |
857 |
|
RANDOM(m/s2rms) |
658 |
646 |
544 |
622 |
544 |
600 |
||
SHOCK (m/s2) |
2352 |
2115 |
1555 |
1777 |
1555 |
1714 |
||
Max. Vel. |
SINE(m/s) |
2.4 |
2.4 |
2.4 |
2.4 |
2.4 |
2.4 |
|
SHOCK(m/s) |
2.4 |
2.4 |
2.4 |
2.4 |
2.4 |
2.4 |
||
Max. Dsp. |
SINE(mmp-p) |
100 |
100 |
100 |
100 |
100 |
100 |
|
Max. TRAVEL(mmp-p) |
120 |
120 |
120 |
120 |
116 |
116 |
||
Max. Load.(kg) |
300 |
400 |
600 |
600 |
1000 |
1000 |
||
Power Requirements(kVA)*1) |
28 |
38 |
53 |
57 |
82 |
86 |
||
Vibration Generator |
Model |
J230 |
J240 |
J250 |
J250 |
J255 |
J260 |
|
Armature Mass(kg) |
17 |
26 |
45 |
45 |
63 |
63 |
||
Armature Diameter(φmm) |
200 |
290 |
440 |
440 |
446 |
446 |
||
Allowable eccentric moment (N・m) |
700 |
850 |
1550 |
1550 |
1550 |
1550 |
||
Dimensions(mm)W×H×D |
1124x 1079x 850 |
1234x 1145x 890 |
1463x 1301x 1100 |
1463x 1301x 1100 |
1527x 1319x 1100 |
1527x 1319x 1100 |
||
Mass(kg) |
1800 |
2400 |
3500 |
3500 |
4100 |
4100 |
||
Power Amplifier |
Model |
SA3M- J30EM |
SA4M- J40EM |
SA5M- J50EM |
SA6M- J50EM |
SA7M- J55EM |
SA7M- J60EM |
|
Max. Output(kVA) |
23 |
34 |
50 |
57 |
64 |
70 |
||
Dimensions(mm)W×H×D |
580x 1750x 850 |
580x 1750x 850 |
580x 2100x 850 |
580x 2100x 850 |
1160x 1950x 850 |
1160x 1950x 850 |
||
Mass(kg) |
380 |
490 |
930 |
960 |
1400 |
1400 |
||
Controller |
Vibration Controller |
See Vibration Controller K2 |
||||||
Cooling |
Cooling Method |
Air cooling |
||||||
Blower |
Dimensions(mm) W×H×D |
606x 1315x 844 |
707x 1531x 896 |
1057x 1841x 1078 |
1057x 1841x 1078 |
1328x 2140x 1033 |
1328x 2140x 1033 |
|
Mass(kg) |
125 |
210 |
250 |
250 |
370 |
370 |
Specifications (High Power Water Cooled Type)
|
System Model |
EMK0301 |
EMK0621 |
EMK0622 |
EMK0801 |
EMK1251 |
EMK1252 |
EMK2001 |
EMK2002 |
|
System Specifications |
Freq. Range(Hz) |
0~3000 |
0~2500 |
0~2500 |
0~2500 |
0~2500 |
0~2500 |
0~2000 |
0~2000 |
|
Rated Force |
SINE(kN) |
30.8 |
49.0 |
61.7 |
80 |
100 |
125 |
160 |
200 |
|
RANDOM (kNrms)*2) |
21.5 |
49.0 |
61.7 |
80 |
100 |
125 |
160 |
200 |
||
SHOCK(kN) |
61.6 |
98 |
123.4 |
160 |
200 |
250 |
320 |
400 |
||
Max. Acc. |
SINE(m/s2) |
1000 |
1000 |
1000 |
1000 |
1000 |
1000 |
800 |
1000 |
|
RANDOM (m/s2rms) |
557 |
700 |
700 |
700 |
700 |
700 |
700 |
700 |
||
SHOCK (m/s2) |
2000 |
2000 |
2000 |
2000 |
2000 |
2000 |
1600 |
2000 |
||
Max. Vel. |
SINE(m/s) |
1.8*5) |
2.0*5) |
2.0*5) |
2.0*5) |
2.0*5) |
2.0*5) |
2.0*5) |
2.0*5) |
|
SHOCK(m/s) |
1.8 |
2.0 |
2.0 |
2.0 |
2.0 |
2.0 |
2.4 |
2.4 |
||
Max. Dsp. |
SINE(mmp-p) |
51 |
51 |
51 |
51 |
51 |
51 |
76.2 |
76.2 |
|
Max. TRAVEL (mmp-p) |
58 |
60 |
60 |
59 |
62 |
62 |
86 |
86 |
||
Max. Load.(kg) |
500 |
1000 |
1000 |
1000 |
2000 |
2000 |
2000 |
2000 |
||
Power Requirements (kVA)*1) |
49 |
76 |
87 |
100 |
150 |
170 |
270 |
300 |
||
Vibration Generatoer |
Model |
K030 |
K060 |
K060 |
K080 |
K125 |
K125 |
K200 |
K200 |
|
Armature Mass(kg) |
27 |
40 |
40 |
60 |
70 |
70 |
200 |
200 |
||
Armature Diameter(φmm) |
320 |
400 |
400 |
446 |
560 |
560 |
650 |
650 |
||
Allowable eccentric moment (N・m) |
980 |
980 |
980 |
1550 |
2450 |
2450 |
4900 |
4900 |
||
Dimensions(mm) W×H×D |
1100x 1090x 824 |
1380x 1085x 1000 |
1380x 1085x 1000 |
1595x 1050x 1200 |
1776x 1360x 1300 |
1776x 1360x 1300 |
2465x 1908x 1740 |
2465x 1908x 1740 |
||
Mass(kg) |
3000 |
3700 |
3700 |
5000 |
7000 |
7000 |
16000 |
16000 |
||
Power Amplifier |
Model |
EM4MM -K30 |
EM6MM -K60 |
EM8MM -K60 |
EM14HM -K80 |
EM18HM -K125 |
EM22HM -K125 |
EM26HM -K200 |
EM32HM -K200 |
|
Max. Output(kVA) |
33 |
43 |
60 |
100 |
98 |
124 |
256 |
320 |
||
Dimensions(mm) W×H×D |
580x 1950x 850 |
1160x 1950x 850 |
1160x 1950x 850 |
1740x 1950x 850 |
1740x 1950x 850 |
2320x 1950x 850 |
2900x 1950x 850 |
3480x 1950x 850 |
||
Mass(kg) |
950 |
1300 |
1350 |
2250 |
2400 |
3200 |
4000 |
4800 |
||
Controller |
Vibration Controller |
See Vibration Controller K2 |
||||||||
Cooling |
Cooling Method |
Shaker:Water Cooling/Amp:Air Cooling |
||||||||
Primary Cooling Water Supply (l/min) |
195 |
260 |
260 |
390 |
390 |
390 |
520 |
520 |
||
Heat Exchanger |
Dimensions(mm) W×H×D |
580x 1700x 850 |
580x 1700x 850 |
580x 1700x 850 |
580x 1700x 850 |
580x 1700x 850 |
580x 1700x 850 |
950x 1900x 800 |
950x 1900x 800 |
|
Mass(kg) |
400 |
400 |
400 |
400 |
400 |
400 |
600 |
600 |
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