ICC PRODYSOL

IP SEALING PROTECTION

IP PROTECTION

PROTECTION AGAINST CONTACT AND PENETRATION OF WATER AND DIRT

Electronic equipment is used in various applications and has to work safely for a long period of time and under adverse environmental conditions. Dust and humidity cannot always be avoided, as well as the presence of foreign bodies. The different protection classes set the extent to which an electrical device can be exposed to adverse environmental conditions, without being damaged or without representing a safety or health risk. The Sealing gaskets collaborate together with an appropriate design to achieve the IP PROTECTION DEGREE required.

IP degree of protection

The IP degree of protection refers to the international standard IEC 60529 Degrees of Protection used very frequently in the technical data of electrical or electronic equipment, in general for industrial use such as sensors, meters, controllers, etc. It specifies an effective system to classify the different degrees of protection provided to them by the containers that protect the components that make up the equipment. It is identified by the acronym IP followed by two figures, which can be replaced by the letter “X” when special information on any of them is not required. Optionally, the figures can be followed by one or two letters that provide additional information. gaminator hack apk

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The first digit of the IP code always refers to the protection of the product against the infiltration of dust or impurities, while the second indicates the protection against the penetration of liquids.

The meaning of the numerical values assigned to the figures is indicated in table 1.

First digit (IP [X] [ ])

Level Incoming object size cash against
0 Without protection
1 <50mm The element to be used for the test (50 mm diameter sphere) must not enter completely.
2 <12.5mm The element to be used for the test (12.5 mm diameter sphere) must not go all the way in.
3 <2.5mm The element to be used for the test (2.5 mm diameter sphere) must not enter in the least.
4 <1mm The element to be used for the test (1 mm diameter sphere) must not enter in the slightest.
5 dust protection The entry of dust cannot be avoided, but it must not enter in such a quantity that it interferes with the correct operation of the equipment.
6 Strong dust protection Dust must not enter under any circumstances

Second digit (IP – [ ] [X])

Level protection against Testing method Results
0 Without protection. None The water will enter the equipment in a short time.
1 dripping water The equipment is placed in its usual workplace. Water must not enter when it is dropped from a height of 200 mm relative to the equipment for 10 minutes (at a rate of 3-5 mm³ per minute)
2 dripping water The equipment is placed in its usual workplace. No debe entrar el agua cuando se la deja caer, durante 10 minutos (a razón de 3-5 mm³ por minuto). bet365 sportfogadás Dicha prueba se realizará cuatro veces a razón de una por cada giro de 15° tanto en sentido vertical como horizontal, partiendo cada vez de la posición normal de trabajo.
3 Water mist. (spray) The equipment is placed in its usual workplace. Water mist should not enter at an angle of up to 60° to the right and left of the vertical at an average rate of 11 liters per minute and at a pressure of 80-100 kN/m² for a time not less than 5 minutes.
4 Water springs The equipment is placed in its usual workplace. Water thrown from any angle at an average rate of 10 liters per minute and at a pressure of 80-100 kN/m² should not enter for a time not less than 5 minutes.
5 Water springs. The equipment is placed in its usual workplace. Water jetted (from any angle) through a 6.3mm diameter nozzle, at an average rate of 12.5 liters per minute and at a pressure of 30kN/m², shall not enter for any time other than less than 3 minutes and at a distance of no less than 3 meters.
6 Very powerful jets of water. The equipment is placed in its usual workplace. Water jetted (from any angle) through a 12.5 mm diameter nozzle, at an average rate of 100 liters per minute and at a pressure of 100 kN/m² for not less than 3 minutes and at a distance not less than 3 meters. sportfogadas org
7 Complete immersion in water. The object must withstand complete immersion at 1 meter for 30 minutes without any leakage. Water must not enter.
8 Complete and continuous immersion in water. The electrical / electronic equipment must withstand (without any filtration) complete and continuous immersion to the depth and for the time specified by the manufacturer of the product with the agreement of the client, but provided that conditions more severe than those specified for value 7 result. . water must not enter
9K Powerful high temperature water jets Protected against short range high pressure and high temperature jets. Test duration: Water volume: 14–16 liters per minute
Pressure: [8000–10000 kPa / 80–100 Bar] distance of 0.1–0.15 m
Water temperature: 80°C

Thus, for example, a degree of protection IP67 indicates the following:

The letters «IP» identify the standard (from the English: Income Protection).

  • The value "6" in the first numerical digit describes the level of dust protection, in this case: "Dust must not enter under any circumstances."
  • The value "7" in the second numerical digit describes the level of protection against liquids (usually water), in our example: "The object must withstand (without any leakage) complete immersion at 1 meter for 30 minutes."

As a general rule, it can be established that the higher the degree of IP protection, the more protected the equipment is.

Currently most of the inductive, capacitive and photoelectric sensors that are sold in the market have a minimum protection level of IP67, which makes them suitable to withstand most of the aggressive environments that occur in the industry.

In CPI-PRODYSOL there are different Sealing gaskets that adapt to different needs, providing the IP sealed necessary to the teams.

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