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Comparison Onix TL-65MEs vs Aiko TM-63T EL

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Onix TL-65MEs
Aiko TM-63T EL
Onix TL-65MEsAiko TM-63T EL
Outdated ProductOutdated Product
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Product Typeregular (for deposit)regular (for deposit)
Capacity85 L
79 L /66+13 L/
Country of originRussiaRussia
Protective features
Burglary resistance classgrade 0
Types of locks
electronic
electronic
Number of locking bolts22
Lock modelPLS-3
Possibility of fastening
Storage
Separate compartments11
Number of shelves11
Safe in safe
Safe dimensions
External dimensions (HxWxD)650x435x360 mm630x440x355 mm
Internal dimensions (HxWxD)642x431x309 mm500x436x301 mm
Door wall thickness5 mm
Body walls thickness2 mm
Weight34 kg34 kg
Added to E-Catalogmarch 2017july 2015

Capacity

The volume of the interior space of the safe. Usually this parameter is indicated taking into account the safe-in-safe and other additional internal compartments. The amount of content that can be placed inside directly depends on the volume; on the other hand, it affects the external dimensions and weight of the storage.

Burglary resistance class

A parameter that characterizes the degree of resistance of the safe to burglary - that is, direct damage to the door or wall in order to gain access to the contents.

Safes manufactured in different countries have different certifications for burglary resistance. So, in accordance with the Ukrainian standard DSTU EN 1143-1:2019, there are 13 classes of burglary resistance of safes. The same number of gradations are available in the ECB-S marking, which is assigned to safes by the European Security Systems Association (ESSA). The classification covers not only resistance to damage, but also the tear resistance of an anchored safe, and bracing is required to classify safes weighing less than a one ton (see below). Pull-off resistance is simply determined by the force required to remove it from the mount; this force is indicated in newtons, 10 N corresponds approximately to a force of 1 kg. To assess the resistance to damage there are so-called resistance units (Ru) - breaking time multiplied by the coefficient of resistance of the tool used. For each type of tool, the coefficients are different - for example, from 1 to 5 for a chisel, 5 for an electric drill, etc. For example, if a control sample of a safe of a certain model was cracked by a drill in 4 minutes, then its resistance to cracking is 20 Ru. Note that the check is carried out in two versions - for full and partial access to the contents of the safe; when assigning a class, both results are taken into accou...nt, they are often written as "partial/full resistance", for example 120/180.

Now there are safes on the market with the following burglary resistance classes: H0 class, Class 0, Class I, Class II< /a>, Class III. Safes with a higher burglar resistance class (Class IV, V class, Class VI, Class VII, Class VIII) are much less common.

Detailed data for each class can be found directly in the regulatory documentation. For example, here are the first three classes:

— H0 class (“below zero”). Minimum burglary resistance class to be certified. Requires a resistance of at least 15 Ru for both access options, and a pull force of at least 50 kN.
- 0 class. Safes with a resistance of at least 30/30 Ru and a pull force of 50 kN or more.
- I class. Models with a resistance of at least 50/30 Ru and a breakout force of 50 kN. The minimum class for safes classified in our catalog as burglar-resistant (see "Product Type").
There are also more burglary-resistant models on the market - up to class VIII.

The burglary resistance class is confirmed by a certificate issued by state bodies for technical regulation and standardization. The validity period of the certificate is limited, and usually it is much less than the time during which this or that model is produced. Therefore, safes are regularly re-certified. For a number of reasons, new results may differ from previous results and correspond to a different resistance class than that recorded in the outdated certificate. Therefore, over time, the class of the same model may change even if the quality of the safes themselves remains unchanged.

Lock model

This paragraph indicates the manufacturer of the safe lock.

External dimensions (HxWxD)

The size of safe regarding its external dimensions. These figures will allow you to estimate how much space the safe takes up and whether it will fit into the intended installation location. Of course, greater capacity implies larger dimensions.

Internal dimensions (HxWxD)

Dimensions of the interior space of the safe. Note that in our catalog this parameter is indicated without a safe-in-safe, ammo compartment (see below) or other additional compartment provided inside.

This parameter directly determines the internal volume (see below). In addition, with the internal dimensions are known, you can determine whether this or that object will fit inside; this is especially important if you plan to use the safe for large items (for example, large-format documents that cannot be folded) — after all, in different models, the dimensions on three sides can vary significantly even with the same capacity.

Door wall thickness

The wall thickness of the door is meant the thickness of a separate metal sheet used in its construction. The use of this parameter is due to the fact that some safes may have voids in metal doors filled with air or a special filler (this is especially true for fireproof models, see "Product Type"). And since the most durable material of the safe door is usually metal, it is the wall thickness that largely determines the overall burglary resistance of the product.

Do not confuse this parameter with the total thickness of the door (see above). For clarity, we can take this example: if a safe door consists of a filler layer of 10 mm with sheets of metal of 5 mm on both sides, then the total thickness of the door will be 20 mm, while the wall thickness is only 5 mm.

Body walls thickness

The thickness of the metal sheet used to make the sides and back of the safe body. Do not confuse this parameter with the total body thickness (see above), these values may not match. For example, if the safe has a filler layer between two sheets of metal (which is typical for fireproof models, see “Product Type”), then the total thickness will correspond to the total thickness of all materials, and the wall thickness will correspond to the dimensions of one of the metal sheets. Since that metal plays the main role in burglary protection (fillers have a different purpose), the reliability of the safe largely depends on the thickness of the walls.