Silent X-Stream™ 캐비닛 인클로저 쿨러는 | Nex Flow Air Products

Silent X-Stream™ 캐비닛 인클로저 쿨러는

제품 개요

전자 제어판 Silent X-Stream™ Frigid-X™ 패널 쿨러 시리즈는 일반 압축 공기에서 냉기를 생성하기 위해 스테인레스 스틸 보텍스 튜브를 사용하여 전기 및 전자 제어 패널을 정화 및 냉각하는 저렴한 방법을 제공합니다. 고온 및 저온의 엔드 머플러 키트를 사용하면, 용량에 따라 64 dBA 이하로 무소음을 추가합니다. 핫 엔드 머플러는 또한 열 감지기 역할을 합니다. 열을 많이 느끼지 않고 손을 감쌀 수 있습니다. 뜨거운 공기는 핫 엔드 머플러 아래에서 안전하게 배출됩니다.

패널 냉각기 시리즈는 소형이며 표준 전기 녹아웃을 통해 몇 분 안에 설치할 수 있습니다. 움직이는 부분이 거의 없습니다.

* 미국 특허 번호: 8,616,010 / 기타 국가: 특허 또는 특허 출원 중

참고: 열악한 제품으로 인해 패널이 손상되지 않도록 전기 인클로저에 사용된 승인되지 않은 장치에 대해 항상 질문하세요.

특징/이점

  • 저렴한 비용
  • 소형
  • CFC 없음
  • 빠른 설치
  • 인클로저 온도 및 습도 안정화
  • 사실상 유지 보수가 필요 없음 (움직이는 부품 없음)
  • 표준 전기 녹아웃에 장착하세요
  • 열 손상과 불쾌감을 방지합니다.
  • 팬 및 필터 제거
  • 인클로저를 정압으로 유지하여 오물 오염을 방지합니다
  • 고온 ~ 200ºF를 포함한 모든 환경에 적용 가능한 장치

Videos

How The Silent X-Stream™ Panel Cooler Works

The regular Frigid-X Panel Coolers are under 78 dBA for noise level but in some instances it is not enough and a quieter version is necessary.   This is where the Silent X-Stream Panel Cooler can be utilized. It can reduce noise levels to 65 dBA   It works the same way as a regular Panel Cooler where compressed air enters at point (A) into the vortex tube component of the panel cooler.  The vortex tube creates two streams of compressed air – a hot stream at (B) and a cold stream at (C). The hot air stream from the vortex tube is vented outside the system at (D) after internal muffling. An additional Hot End muffler (I) reduces the noise further and also acts a protection cover over the hot end should anyone try to grab the unit.   Hot air from inside the control panel is vented at point (E) to the outside. Cold air goes into the control panel at (F) into an additional cold end muffler (J) and then into the cold distribution hose (G). Holes (H) are punched into the hose kit to distribute the cold air inside the panel. A muffler (I) further reduces the noise level of the exhausting at the end of the hose.

As with the standard Panel Cooler there is the optional Thermostats and Solenoid Valve System and Electronic Thermostats System for on-off control and Bypass system if constant purge is required inside (to keep out a dirty environment).

Dimensions

Cabinet Cooler Dimensions

셀렉션

Panel Coolers, Panel Cooler, Panel Air Conditioner, Cabinet Enclosure Cooler, Electrical Panel Air Conditioners, Cabinet Cooling Solution, Cooler Master Cabinet, Panel Air Conditioner, Adjustable Thermostat, Electrical Panel Coolers, How to Cool Electrical Enclosures, Electronic Temperature Control

부식성 환경과 긴 수명을 위한 전체 장치 303/304 스테인레스 스틸. 고온 및 저온의 엔드 머플러 키트를 사용하면 용량에 따라 64 dBA 이하이 무소움이 추가됩니다. 또한 핫 엔드 머플러는 열 감지기 역할을 합니다. 열을 많이 느끼지 않고 손을 감쌀 수 있습니다.

Silent X-Stream™ NEMA 12 (IP56) 무소음 패널 쿨러

  • Silent X-Stream™ NEMA 12 (IP56) 표준 캐비닛 인클로저와 패널을 위한 무소음 패널 쿨러.

Silent X-Stream™ NEMA 3R (IP14) 무소음 패널 쿨러

  • Silent X-Stream™ NEMA 3R (IP14) 실외 사용의 캐비닛 인클로저와 패널을 위한 무소음 패널 쿨러.

Silent X-Stream™ NEMA 4-4x (IP66) 무소음 패널 쿨러

  • Silent X-Stream™ NEMA 4-4x (IP66) 애플리케이션을 씻은 캐비닛 인클로저와 패널을 위한 무소음 패널 쿨러.

Contact Nex Flow™ for assistance in sizing cabinet enclosure cooler – Frigid-X series. See Below for Sizing Specifications

MODEL NO. VERSION CAPACITY BTU/hr (Watts)* dBA at 80 PSIG (5.5 bar)
61104X NEMA Type 4-4X (IP-66) Continuous Operation 290 (85) 58
61108X NEMA Type 4-4X (IP-66) Continuous Operation 580 (170) 60
61115X NEMA Type 4-4X (IP-66) Continuous Operation 1100 (322) 67
61125X NEMA Type 4-4X (IP-66) Continuous Operation 1800 (527) 68
61130X NEMA Type 4-4X (IP-66) Continuous Operation 2100 (615) 68
61140X NEMA Type 4-4X (IP-66) Continuous Operation 2900 (849) 69
63104X NEMA type 4-4X (IP-66) on-off control 290 (85) 58
63108X NEMA Type 4-4X (IP-66) on-off control 580 (170)) 60
63115X NEMA Type 4-4X (IP-66) on-off control 1100 (322) 67
63125X NEMA Type 4-4X (IP-66) on-off control 1800 (527) 68
63130X NEMA Type 4-4X (IP-66) on-off control 2100 (615) 68
63140X NEMA Type 4-4X (IP-66) on-off control 2900 (849) 69
60115X-316L 316 L Stainless Steel NEMA Type 4-4X (IP-66) on-off control (customer supplies own filter)** 1100 (322) 72
60125X-316L 316 L Stainless Steel NEMA Type 4-4X (IP-66) on-off control (customer supplies own filter)** 1800 (527) 73
60130X-316L 316 L Stainless Steel NEMA Type 4-4X (IP-66) on-off control (customer supplies own filter)** 2100 (615) 74
60140X-316L 316 L Stainless Steel NEMA Type 4-4X (IP-66) on-off control (customer supplies own filter)** 2900 (849) 76

** In 316 environments normally customers will already have special filtration systems.

*Cooling effect based on 95°F temperature inside cabinet, 100 PSIG (6.9 BAR) compressor inlet pressure, and 70ºF (21ºC) inlet temperature.

BTU/hr. figures rounded to nearest 100 BTU/hr (1 WATT).

All Continuous Operation models include the cooling unit, filter with auto drain and cold air distribution kit.

All On-Off control units include the cooling unit, filter with auto drain, cold air distribution kit, solenoid valve and thermostat.

Calculating Heat Load

Total heat load consists of the heat transfer from outside your panel and from the heat dissipated inside the control unit.

Useful terms and conversions:

1 BTU/hr = 0.293 watts
1 BTU/hr – 0.000393 horsepower
1 Watt = 3.415 BTU/hr
1 horsepower = 2544 BTU/hr
1 Watt = 0.00134 horsepower
1 Square Foot = 0.0929 square meters
1 Square Meter = 10.76 square foot

Typical fan capacity:

4″ fan: 100 CFM (2832 LPM)
6″ fan: 220 CFM (6230 LPM)
8″ fan: 340 CFM (9628 LPM)
10″ fan 550 CFM (15574 LPM)

BTU/hr. cooling effect from fan 1.08 x (temp. inside panel in °F – temp. outside panel in degrees F) x CFM.

Watts cooling effect from fan: 0.16 x (temp. inside panel in °C – temp. outside panel in degrees C) x LPM.

Calculating BTU/hr. or Watts:

  1. Determine the heat generated inside the enclosure. Approximations may be necessary. For example, if you know the power generated inside the unit, assume 10% of the energy is dissipated as heat.
  2. For heat transfer from the outside, calculate the area exposed to the atmosphere except for the top of the control panel.
  3. Choose the internal temperature you wish to have, and choose the temperature difference between it and the maximum external temperature expected.
  4. From the conversion table that follows, determine the BTU/hr. per square foot (or watts per square meter) for the temperature difference.
  5. Multiply the panel surface area times the BTU/hr. per square foot (or watts per square meter) to get the external heat transfer in BTU/hr or in watts.
  6. Sum the internal and external heat loads calculated.
  7. If you do not know the power used in the enclosure but you can measure temperatures, then measure the temperature difference between the outside at current temperature, and the present internal cabinet temperature.
  8. Note size and number of any external fans. Provide this information to Nex Flow™  to assist in sizing the appropriate cooling system.
Temperature Difference in °F BTU/hr./sq. ft. Temperature Difference in °C Watts/sq.m
5 1.5 3 5.2
10 3.3 6 11.3
15 5.1 9 17.6
20 7.1 12 24.4
25 9.1 15 31.4
30 11.3 18 39.5
35 13.8 21 47.7
40 16.2 24 55.6

Example:

The control panel coolers have two frequency drives totaling 10 horsepower and one module rated at 100 watts. The maximum outside temperature expected is 105°F or 40.5°C. The area of the control panel cooler exposed sides, except for the top is 42 square feet or 3.9 square meters. We want the internal temperature to be 95° or 35°C.

Total internal power is 10 hp x 746 watts/hp – 7460 plus 100 watts = 7560 watts.
Assume 10% forms heat = an internal heat load of 756 watts.

Or

Total internal power is 10 hp x 2544 BTU/hp = 25440 BTU/hr plus 100 watts x 3.415 BTU/hr/watt = 25782 BTU/hr.

Assume 10% forms heat = an internal heat load of 2578 BTU/hr.

External heat load: The temperature difference between the desired temperature and the outside is 10°F or 5.5°C. Using the conversions (and interpolating where necessary) we multiply the area by the conversion factor:

42 sq. ft x 3.3 – 139 BTU/hr or 3.9 sq. m x 10.3 = 40 watts

Total Heat Load: 756 + 40 – 796 watts or 2578 + 139 – 2717 BTU/hr.

You would use a Model 61040 for constant operation or a Model 63040 for one-off control. (Rated at 2900 BTU/hr or 849 watts).


Prices are in US dollars – ex works Cincinnati, OH, USA for orders

in USA and Richmond Hill, ON, Canada for international orders.

Tel : +1-416-410-1313   Fax : +1-416-410-180 or +1-716-626-3001

website : www.nexflow.com

email : sales@nexflow.com


Overview

제품 개요

전자 제어판 Silent X-Stream™ Frigid-X™ 패널 쿨러 시리즈는 일반 압축 공기에서 냉기를 생성하기 위해 스테인레스 스틸 보텍스 튜브를 사용하여 전기 및 전자 제어 패널을 정화 및 냉각하는 저렴한 방법을 제공합니다. 고온 및 저온의 엔드 머플러 키트를 사용하면, 용량에 따라 64 dBA 이하로 무소음을 추가합니다. 핫 엔드 머플러는 또한 열 감지기 역할을 합니다. 열을 많이 느끼지 않고 손을 감쌀 수 있습니다. 뜨거운 공기는 핫 엔드 머플러 아래에서 안전하게 배출됩니다.

패널 냉각기 시리즈는 소형이며 표준 전기 녹아웃을 통해 몇 분 안에 설치할 수 있습니다. 움직이는 부분이 거의 없습니다.

* 미국 특허 번호: 8,616,010 / 기타 국가: 특허 또는 특허 출원 중

참고: 열악한 제품으로 인해 패널이 손상되지 않도록 전기 인클로저에 사용된 승인되지 않은 장치에 대해 항상 질문하세요.

Advantages

특징/이점

  • 저렴한 비용
  • 소형
  • CFC 없음
  • 빠른 설치
  • 인클로저 온도 및 습도 안정화
  • 사실상 유지 보수가 필요 없음 (움직이는 부품 없음)
  • 표준 전기 녹아웃에 장착하세요
  • 열 손상과 불쾌감을 방지합니다.
  • 팬 및 필터 제거
  • 인클로저를 정압으로 유지하여 오물 오염을 방지합니다
  • 고온 ~ 200ºF를 포함한 모든 환경에 적용 가능한 장치
Videos

Videos

How The Silent X-Stream™ Panel Cooler Works

The regular Frigid-X Panel Coolers are under 78 dBA for noise level but in some instances it is not enough and a quieter version is necessary.   This is where the Silent X-Stream Panel Cooler can be utilized. It can reduce noise levels to 65 dBA   It works the same way as a regular Panel Cooler where compressed air enters at point (A) into the vortex tube component of the panel cooler.  The vortex tube creates two streams of compressed air – a hot stream at (B) and a cold stream at (C). The hot air stream from the vortex tube is vented outside the system at (D) after internal muffling. An additional Hot End muffler (I) reduces the noise further and also acts a protection cover over the hot end should anyone try to grab the unit.   Hot air from inside the control panel is vented at point (E) to the outside. Cold air goes into the control panel at (F) into an additional cold end muffler (J) and then into the cold distribution hose (G). Holes (H) are punched into the hose kit to distribute the cold air inside the panel. A muffler (I) further reduces the noise level of the exhausting at the end of the hose.

As with the standard Panel Cooler there is the optional Thermostats and Solenoid Valve System and Electronic Thermostats System for on-off control and Bypass system if constant purge is required inside (to keep out a dirty environment).

Dimensions

Dimensions

Cabinet Cooler Dimensions

셀렉션

셀렉션

Panel Coolers, Panel Cooler, Panel Air Conditioner, Cabinet Enclosure Cooler, Electrical Panel Air Conditioners, Cabinet Cooling Solution, Cooler Master Cabinet, Panel Air Conditioner, Adjustable Thermostat, Electrical Panel Coolers, How to Cool Electrical Enclosures, Electronic Temperature Control

부식성 환경과 긴 수명을 위한 전체 장치 303/304 스테인레스 스틸. 고온 및 저온의 엔드 머플러 키트를 사용하면 용량에 따라 64 dBA 이하이 무소움이 추가됩니다. 또한 핫 엔드 머플러는 열 감지기 역할을 합니다. 열을 많이 느끼지 않고 손을 감쌀 수 있습니다.

Silent X-Stream™ NEMA 12 (IP56) 무소음 패널 쿨러

  • Silent X-Stream™ NEMA 12 (IP56) 표준 캐비닛 인클로저와 패널을 위한 무소음 패널 쿨러.

Silent X-Stream™ NEMA 3R (IP14) 무소음 패널 쿨러

  • Silent X-Stream™ NEMA 3R (IP14) 실외 사용의 캐비닛 인클로저와 패널을 위한 무소음 패널 쿨러.

Silent X-Stream™ NEMA 4-4x (IP66) 무소음 패널 쿨러

  • Silent X-Stream™ NEMA 4-4x (IP66) 애플리케이션을 씻은 캐비닛 인클로저와 패널을 위한 무소음 패널 쿨러.

Contact Nex Flow™ for assistance in sizing cabinet enclosure cooler – Frigid-X series. See Below for Sizing Specifications

MODEL NO. VERSION CAPACITY BTU/hr (Watts)* dBA at 80 PSIG (5.5 bar)
61104X NEMA Type 4-4X (IP-66) Continuous Operation 290 (85) 58
61108X NEMA Type 4-4X (IP-66) Continuous Operation 580 (170) 60
61115X NEMA Type 4-4X (IP-66) Continuous Operation 1100 (322) 67
61125X NEMA Type 4-4X (IP-66) Continuous Operation 1800 (527) 68
61130X NEMA Type 4-4X (IP-66) Continuous Operation 2100 (615) 68
61140X NEMA Type 4-4X (IP-66) Continuous Operation 2900 (849) 69
63104X NEMA type 4-4X (IP-66) on-off control 290 (85) 58
63108X NEMA Type 4-4X (IP-66) on-off control 580 (170)) 60
63115X NEMA Type 4-4X (IP-66) on-off control 1100 (322) 67
63125X NEMA Type 4-4X (IP-66) on-off control 1800 (527) 68
63130X NEMA Type 4-4X (IP-66) on-off control 2100 (615) 68
63140X NEMA Type 4-4X (IP-66) on-off control 2900 (849) 69
60115X-316L 316 L Stainless Steel NEMA Type 4-4X (IP-66) on-off control (customer supplies own filter)** 1100 (322) 72
60125X-316L 316 L Stainless Steel NEMA Type 4-4X (IP-66) on-off control (customer supplies own filter)** 1800 (527) 73
60130X-316L 316 L Stainless Steel NEMA Type 4-4X (IP-66) on-off control (customer supplies own filter)** 2100 (615) 74
60140X-316L 316 L Stainless Steel NEMA Type 4-4X (IP-66) on-off control (customer supplies own filter)** 2900 (849) 76

** In 316 environments normally customers will already have special filtration systems.

*Cooling effect based on 95°F temperature inside cabinet, 100 PSIG (6.9 BAR) compressor inlet pressure, and 70ºF (21ºC) inlet temperature.

BTU/hr. figures rounded to nearest 100 BTU/hr (1 WATT).

All Continuous Operation models include the cooling unit, filter with auto drain and cold air distribution kit.

All On-Off control units include the cooling unit, filter with auto drain, cold air distribution kit, solenoid valve and thermostat.

Calculating Heat Load

Calculating Heat Load

Total heat load consists of the heat transfer from outside your panel and from the heat dissipated inside the control unit.

Useful terms and conversions:

1 BTU/hr = 0.293 watts
1 BTU/hr – 0.000393 horsepower
1 Watt = 3.415 BTU/hr
1 horsepower = 2544 BTU/hr
1 Watt = 0.00134 horsepower
1 Square Foot = 0.0929 square meters
1 Square Meter = 10.76 square foot

Typical fan capacity:

4″ fan: 100 CFM (2832 LPM)
6″ fan: 220 CFM (6230 LPM)
8″ fan: 340 CFM (9628 LPM)
10″ fan 550 CFM (15574 LPM)

BTU/hr. cooling effect from fan 1.08 x (temp. inside panel in °F – temp. outside panel in degrees F) x CFM.

Watts cooling effect from fan: 0.16 x (temp. inside panel in °C – temp. outside panel in degrees C) x LPM.

Calculating BTU/hr. or Watts:

  1. Determine the heat generated inside the enclosure. Approximations may be necessary. For example, if you know the power generated inside the unit, assume 10% of the energy is dissipated as heat.
  2. For heat transfer from the outside, calculate the area exposed to the atmosphere except for the top of the control panel.
  3. Choose the internal temperature you wish to have, and choose the temperature difference between it and the maximum external temperature expected.
  4. From the conversion table that follows, determine the BTU/hr. per square foot (or watts per square meter) for the temperature difference.
  5. Multiply the panel surface area times the BTU/hr. per square foot (or watts per square meter) to get the external heat transfer in BTU/hr or in watts.
  6. Sum the internal and external heat loads calculated.
  7. If you do not know the power used in the enclosure but you can measure temperatures, then measure the temperature difference between the outside at current temperature, and the present internal cabinet temperature.
  8. Note size and number of any external fans. Provide this information to Nex Flow™  to assist in sizing the appropriate cooling system.
Temperature Difference in °F BTU/hr./sq. ft. Temperature Difference in °C Watts/sq.m
5 1.5 3 5.2
10 3.3 6 11.3
15 5.1 9 17.6
20 7.1 12 24.4
25 9.1 15 31.4
30 11.3 18 39.5
35 13.8 21 47.7
40 16.2 24 55.6

Example:

The control panel coolers have two frequency drives totaling 10 horsepower and one module rated at 100 watts. The maximum outside temperature expected is 105°F or 40.5°C. The area of the control panel cooler exposed sides, except for the top is 42 square feet or 3.9 square meters. We want the internal temperature to be 95° or 35°C.

Total internal power is 10 hp x 746 watts/hp – 7460 plus 100 watts = 7560 watts.
Assume 10% forms heat = an internal heat load of 756 watts.

Or

Total internal power is 10 hp x 2544 BTU/hp = 25440 BTU/hr plus 100 watts x 3.415 BTU/hr/watt = 25782 BTU/hr.

Assume 10% forms heat = an internal heat load of 2578 BTU/hr.

External heat load: The temperature difference between the desired temperature and the outside is 10°F or 5.5°C. Using the conversions (and interpolating where necessary) we multiply the area by the conversion factor:

42 sq. ft x 3.3 – 139 BTU/hr or 3.9 sq. m x 10.3 = 40 watts

Total Heat Load: 756 + 40 – 796 watts or 2578 + 139 – 2717 BTU/hr.

You would use a Model 61040 for constant operation or a Model 63040 for one-off control. (Rated at 2900 BTU/hr or 849 watts).

Pricing

Prices are in US dollars – ex works Cincinnati, OH, USA for orders

in USA and Richmond Hill, ON, Canada for international orders.

Tel : +1-416-410-1313   Fax : +1-416-410-180 or +1-716-626-3001

website : www.nexflow.com

email : sales@nexflow.com


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