Vent Plug for Network Enclosure: Waterproof IP67

$3.33
SKU:
APVent
Brand:

Availability:
In stock
Weight:
0.20 LBS

Vent Plug for Network Enclosure

Specifications

M12*15
Color White
Air Permeability 633.4ml/min (10kpa)
Temperature Range -40℃ - 140℃
Waterproof Rating IP67
Water Blocking Pressure -12kpa

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Vents for Outdoor Enclosures for Network & Telecom Gear

Rugged outdoor environments can wreak havoc on network and telecom gear. This includes cooling filters, lighting systems, switching infrastructure components, high-speed cables, security systems, digital circuits and so on.

Vents are used on network enclosures that need to allow constant air flow in and out while preventing dust, water and other forms of contaminants from damaging the electronic circuits. Additionally, they help to equalize the pressure within the enclosures, release gases and reduce condensation.

Our protective enclosure vents enclosures have durable seals and robust materials for a tight and reliable seal. Most protection vents have an IP67 rating, which what we also recommend. IP67 basically means the vent protects 100% against solid particles like sand and dust and can protect against water intrusion while the enclosure is submerged under water up to 1m for up to 30 minutes.

Enclosures protect sophisticated electronic equipment from corrosion, cold and hot temperatures, dust/particle intrusion, water intrusion, strong winds, and pressure variations. For them to successfully do so, they need Protection Vents.

Enclosure vents deliver vital ventilation for electrical and electronic enclosures
It is important to ensure that an enclosure that houses powered electronic equipment is kept properly ventilated and cool. Enclosure vents and venting plugs are critical enclosure accessories that facilitate much-needed air circulation and equalization of temperature and pressure within an enclosure while maintaining the enclosure’s protective performance against the ingress of dirt, dust, and moisture.

Enclosure vent plugs or vent seals can be passed through an enclosure knockout much like a cable gland. Threaded vent plugs consist of a perforated head that allows airflow, a body to pass through the wall of the enclosure, and a sealing ring and lock-nut for an ingress protection rated seal. Alternatively, snap-on vent seals can simply be snapped into place. They are usually made from thermoplastics like ABS, PVC, polycarbonate, or nylon and should not compromise the structural integrity of the enclosure.

Individual vents, seals, and plugs have different levels of airflow and should be selected according to the requirements of the enclosure installation. The airflow of vents is measured in milliliters per minute and pressure in Kilopascals (kPa).

Why are enclosure vents important?

The effects of heat on wireless enclosures.
High temperatures can cause serious problems for equipment that is stored in an electronic enclosure. The enclosure, densely housed equipment, and individual electronic components within devices all have manufacturer-specified operating temperature ranges, within which they will perform properly. Temperature extremes will cause overheating within the device. This in turn causes derangement and dysfunction of electronic components in the following ways:

  • Capacitors experience changes in capacitance and their dielectric constant with an overall reduction in the insulation resistance where temperatures are high. There can also be electrolyte and current leakage and a notable shortening of the component lifespan.
  • Transistors will have increase leakage currents and increases in gain, as well as short-circuiting.
  • Connectors sustaining high temperatures have damage to their insulators, with flashovers and arcing possible. When combined with humidity, the vulnerability to corrosion is increased.
  • Switches may experience arcing.
  • Thermistors sustain altered resistance with a propensity to short-circuiting.

Heat-related changes lead to degradement of the performance of the equipment with erratic functioning commonly experienced. The lifespan of affected devices is drastically shortened and where the high temperature becomes extreme, devices will shut down, leading to downtime that is often costly. Prolonged exposure to high temperatures will lead to irreparable failure of the equipment and component and even give rise to fire, an additional hazard.

Sunlight is a major cause of enclosure overheating.
Outdoor enclosures are particularly challenged by overheating because prolonged exposure to sunlight rapidly increases the temperature of the enclosure interior. When the air surrounding the equipment exceeds its operating temperature, heat will move from the outside the device or equipment to within it. As well as solar radiation, proximity to high-temperature industrial machinery will also have a similar heat transfer effect. As the enclosed equipment itself generates heat, without a ventilation strategy, overheating is inevitable.

Enclosure size and dimension determines the speed at which it overheats.
The surface area of the enclosure is exposed to solar radiation and also be used for the dispersal of heat.

Strategies for keeping down the internal temperature of an outdoor enclosure.
As electrical equipment that is housed within enclosures constantly generates heat, there needs to be a strategy in place for the efficient cooling of the equipment. A stable, appropriate operating temperature can be maintained within an enclosure by ensuring that heat generated is efficiently dissipated. This can be done passively (natural convection), using venting, or by using active cooling mechanisms such as filter fans and exhaust inlets for the extraction of hot air and the drawing in of cooler air into the enclosure (forced convection).

Enclosure vents are used for cooling enclosures with natural convection.
Options for enclosure cooling will depend on the size and specification of the enclosure and the thermal load (generated heat) that will need to be removed. If the thermal load is low, the use of basic venting should be adequate for the removal of exhaust heat. This is a passive process and will have less cooling than can be achieved by forced convection with a fan. Vent plugs can be used with knockouts at the bottom and top of the enclosure, meaning that hot air will leave the enclosure by the upper vent while cooler air is drawn in from beneath.

Vent plugs can also be used with forced ventilation systems.
Where the thermal load of an enclosure cannot be dissipated by passive strategies, a fan-based forced ventilation system will become necessary. This usually involves a standard airflow strategy with the installation of a vented fan at the bottom of the enclosure door. The fan is used to suck in cool air through the vent and filter. At the top of the enclosure, there is an exhaust outlet. This had the effect of moving cooler air across the equipment while its exhaust heat is pushed up and out of the upper vent.

Use enclosure vents to prevent the build-up of humidity.
Humidity is a problem for enclosures installed in indoor and outdoor environments. Manufacturers will specify the level of humidity that electronic equipment can tolerate, but it should be kept as low as possible. Humidity plays a big part in the development and progression of corrosion and will shorten the lifespan of devices it comes into contact with. It can also cause electrical problems including the generation of short-circuits and the deterioration of insulating components.

Ventilation is also key to keeping condensation at bay.
As the seasons and patterns of weather change, condensation becomes a problem for equipment that is housed outdoors. In cooler environments, venting will be needed alongside fans as well as thermostatically controlled heaters to avoid a damaging build-up of condensation within the enclosure. If temperatures are low, moist air will settle on the relatively cool surfaces of equipment and condense, raising the risk of moisture ingress into the electronic equipment and the development of corrosion.

Frequently asked questions for enclosure vents

How can I reduce the effects of solar radiation on my outdoor enclosure?

  • Solar Radiation can be mitigated by the positioning of the outdoor enclosure. By installing your equipment in a north-south orientation you can reduce the surface area of the enclosure that is exposed to the sun.
  • White or light colors are commonly used for enclosures as they reflect solar radiation.
  • You may consider erecting shading for the enclosure to keep the sunlight off it.

What is thermal dissipation?
Thermal dissipation refers to the transfer of heat, from a hotter object to colder objects or the surrounding environment. This is critical for electrical enclosures due to the risks of overheating and costly damage and downtime. Controlling thermal dissipation is necessary for protecting the performance of both the electrical enclosure and the equipment it houses. Enclosure vents an enclosure accessory that can be used to enhance thermal dissipation in enclosures.

In conclusion
The selection and positioning of enclosure vents are part of ensuring the reliable performance and longevity of network equipment. High-quality enclosure vents are RoHS and Conflict mineral legislation compliant and deliver consistent service without compromising the overall protective capabilities of the electronic enclosure.

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