Power consumption
The power of the engine used in an electric or
gasoline demolition hammer. This parameter is used to indicate the total power consumption (useful power is less due to losses in the mechanisms) and, accordingly, it determines the connection requirements: the power grid must be able to deliver the required current without overloads and failures.
In general, the more powerful the tool, the better it is able to handle hard materials or large volumes of work. High power values make it possible to provide adequate energy for each individual impact and/or numerous strokes per minute. At the same time, we can say that power is a secondary parameter, and when choosing, you should look primarily at more practically significant characteristics — the same impact energy or impact frequency.
Impact energy
The greatest kinetic energy that a demolition hammer is capable of delivering on each individual blow.
The higher the impact energy, the stronger each blow is and the easier it is for the demolition hammer to “bite” into complex hard materials. On the other hand, there is not always a real need for high values, despite the fact that this parameter significantly affects the total cost of the tool. Therefore, it is worth choosing a demolition hammer according to the impact energy, taking into account the specifics of the materials for which it is planned to be used. Detailed recommendations for specific cases can be found in special sources.
It is worth noting that since recently, many manufacturers (primarily well-known ones) have been testing impact energy according to the new EPTA standard, which on the same tool gives lower energy values than the old standards. Therefore, when choosing, as well as when directly comparing different models (especially those with similar characteristics), it's ok to clarify by which standard the power was measured.
Noise level
The noise level produced by a demolition hammer during operation. The lower the noise, the more comfortable the instrument will be to use. However, it must be said that this parameter is quite approximate: the actual noise level depends on the specific mode of operation, the nozzle used, the material being processed, etc. Nevertheless, the indicators claimed in the characteristics make it quite possible to evaluate the overall “loudness” of the instrument – for example, in order to choose the appropriate noise protection means.
When evaluating the noise level, you need to keep in mind that the decibel is a non-linear quantity. Therefore, it is easiest to use comparative tables for evaluation. Here is a simplified version of a similar table for the noise range covered by modern demolition hammers:
75 dB — loud scream at a distance of 1 m;
80 dB — ringing of a mechanical alarm clock at a distance of 1 m;
85 dB — motorcycle engine with muffler in close proximity;
90 dB — freight car at a distance of 7 – 10 m;
95 dB — noise in the subway car on the stage;
100 dB — industrial shop;
105 dB — mid-range home theater at full volume.
