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Flat air nozzles หัวฉีดลมหน้ากว้าง
Air nozzles หัวฉีดลมสเปรย์วงกลม
Air knives หัวฉีดลมที่เรียงต่อกันเป็นมีดลม ม่านอากาศ
Bazooka ปืนฉีดลมรุ่นใหญ่ ทรงพลัง
Safety air guns ปืนฉีดลมคุณภาพ เสียงเบา ประหยัดลม
ปืนฉีดลมแรงสูง รุ่นใหญ่เหมาะสำหรับงาน Heavy duty
Safety Silencers อุปกรณ์ลดเสียงด้านขาออก
Accessories สำหรับหัวฉีดลม ปืนฉีดลม
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Energy Conservation

 

หัวฉีดลม ลดเสียง เพิ่มความแรงของลม,หัวฉีดลม ประหยัดลม

Save energy air nozzle

 

วิธีประหยัดพลังงานจากการใช้หัวฉีดลม


Energy conservation 

Within every company there is an ongoing aspiration to reduce costs. Every expense is scrutinized, 
including energy costs. 

There are numerous possibilities to conserve energy used in association with compressed air, in part by getting rid of leaks, but primarily through more efficient use of the compressed air. 

At least as important as saving money is investiog in energy saving measures that provide increased comfort and quality of life. More and more prople have understood the commection between job satisfaction and human performance. A good example is using properly dimensioned air nozzles when cleaning with compressed air. In addition to reducing energy costs, you also get cosiderably lower noise levels.

Clearly the cost of energy is a key factor when dimensioning a compressed air installation. Therefore it is important to find a solution that not only meets the requirements for performance and quality, but requirements for efficient use of energy as well. the additional cost that may arise when purchasing equipment that fulfills both criteria may well be a good investment in the long run.

 

Blowing with compressed air (Nozzle)
When compressed air is used for cleaning, sorting, or drying, most people rely on the use of an open pipe. As a rule, not much thought has beengiven to the dimensioning of the pipe - rather a "Suitable pipe" is used. People normally choose a pipe that is big enough to guarantee that the blowing operation is adequately performed. In the vast majority of cases this has resulted in an over-dimensioning of the blowing force.

Properly conducted technical dimensioning that result in the correct choice of nozzle, distance, and blowing angle often results in an energy savings of 30-50%

 

Lower the pressure (nozzle) ใช้แรงดันต่ำ 
Nozzles patented air guns and safety nozzles allow more efficient utilization of the compressed air. This permits you to lower the pressure at your workstations and still perform the same job. Lower pressure means an even lower sound level as well as lower energy consumption.

You should always strive to have the right pressure in the right place - neither too high nor too low. The operating pressure directly affects the requirement for power. Higher pressure of course means higher energy consumption. Raising the operating pressure to compensate for pressure drop always means higher operating costs. An equivalent reduction results in an eually large increase of profit.

Raising the pressure by one bar (14.3 psi) means an energy consumption increase of approximately 8% 

 

Operating costs
The major expense associated with a blowing operation is the operating cost for producing the compressed air. Calulated for a five-year period, the investment andfinancing costs for purchasing air nozzles are negligible. Installing an open pipe is only an expense. A properly installed nozzle represents an investment in cost reduction.

The right equipment and knowledge decrease your operating costs.

 

ขนาดท่อเปล่า
PIPE Inside
ระดับเสียง 
Sound Level
ปริมาณลม
AIR 
CONSUMPTION
SILVENT ระดับเสียง
ลดลง
NOISE LEVEL 
REDUCTION
ประหยัดพลังงานลม
Air Saving
mm. inch dB(A) Nm³/h L/min. dB(A) Nm³/h L/min.
2 5/64 84 8 133 MJ4                                  8 4 67
2.5 3/32 87 12 200 MJ5 8 2 33
3 1/8 90 17 283 MJ6 8 3 50
4 5/32 95 30 500 209L, 921, 512 16 11 183
5 3/16 99 47 783 1011 15 22 367
6 1/4 102 67 1,117 920A 21 37 617
7 9/32 105 92 1,533 973, 703 19 34 567
8 5/16 108 118 1,967 404L 22 42 700
10 3/8 112 185 3,083 705L, 2005 20 90 1,500
12 1/2 116 266 4,433 707C, 407L 23 146 2,433
14 9/16 119 363 6,050 710 20 147 2,450
16 5/8 122 474 7,900 412 30 246 4,100
17 11/16 123 536 8,933 715C 23 225 3,750
18 23/32 124 599 9,983 715L 21 287 4,783
20 3/4 126 740 12,333 720 22 320 5,333
25 1 131 1159 19,317 735 26 523 8,716