Dark mode
United Kingdom
Catalog   /   Tools & Gardening   /   Power Tools   /   Grinders & Polishers

Comparison Einhell Home TH-OS 1520 vs Black&Decker KA300

Add to comparison
Einhell Home TH-OS 1520
Black&Decker KA300
Einhell Home TH-OS 1520Black&Decker KA300
Compare prices 5
from £48.59 
Outdated Product
TOP sellers
Typevibratingvibrating
Specs
Power consumption150 W135 W
Rotation speed11500 rpm11000 rpm
Oscillation speed23000 opm22000 opm
Oscillation amplitude2 mm2 mm
Tape/sheet length230 mm230 mm
Belt / sheet width93 mm92 mm
Pad size90x187 mm90x187 mm
Sheet fixingvelcro and clipsclips
More features
dust collector connection
dust collector connection
In box
 
dust collector
General
Power sourcemains (230 V)mains (230 V)
Noise level94 dB89 dB
Weight1.5 kg1.2 kg
Added to E-Catalogjanuary 2014june 2011

Power consumption

The power consumed by the grinder during operation. Usually more than the output (useful) power (see above) due to losses during the conversion of energy from electrical to mechanical. However, the general patterns in this case are the same: a more powerful tool, on the one hand, is usually more performant, on the other hand, it is heavier, larger and more expensive. In addition, the total electricity consumption depends on this indicator; however, grinders, even the most powerful ones, consume relatively little energy, and difficulties can arise only when connecting a high-performance professional tool to weak electrical wiring.

Note that it is much easier to determine the consumed power than the useful one; therefore, only this parameter is often indicated in the characteristics, without specifying the useful power. In general, it is quite possible to compare grinders of the same type using it (see above): a modern tool has approximately the same efficiency, and in most cases the useful power values bare related in the same way as the consumed values.

Rotation speed

The speed of rotation of the working attachment, which is capable of providing a grinder of the appropriate design (for example, angle — see "Type"). If the device has speed control, this paragraph shows the range of such adjustment, from minimum to maximum.

It makes sense to compare by this parameter units belonging to the same type and having the same maximum diameter of the disk (or other working nozzle). The latter is due to the fact that the larger the disk, the faster its edge moves (at the same speed); i.e. a larger diameter requires less RPM for the same performance/efficiency. In general, when comparing different models, the following should be taken into account. The higher rotation speed is well suited for large volumes of work (because it improves productivity) as well as for fine polishing with “delicate” nozzles. A lower setting, in turn, improves accuracy (reduces the chance of removing excess material), as well as provides more torque and allows you to more effectively deal with hard, stubborn materials. More detailed recommendations for different types of work and different nozzle diameters can be found in special sources; here we note that an increase in the rotation speed, usually, affects the cost of the machine compared to analogues (since this requires a more powerful engine). In addition, discs and other attachments may have maximum RPM limits.

Oscillation speed

The frequency of vibration of the working attachment, which is capable of providing a grinder of the appropriate design (a classic example is vibration, see "Type"). If the device has an oscillation frequency adjustment, this paragraph gives the range of such adjustment, from minimum to maximum.

A higher frequency (with the same amplitude — see below) improves overall performance, especially when working with hard, stubborn materials, and also contributes to efficiency in delicate finishing (such as polishing). In turn, a lower frequency reduces the likelihood of making a mistake by removing an excessive amount of material. There are also more specific points related to this parameter; them, as well as recommendations for choosing the frequency for different jobs, materials and types of sanding sheets, can be found in special sources. Here, we note that individual sanding sheets may have their own limitations or recommendations regarding the operating frequency.

Belt / sheet width

The width of the belt or sheet for which the grinder is designed.

Working nozzles in the form of sheets are used in units with a vibrational principle of operation, in the form of tapes — respectively, in tape ones (for more details on both, see "Type"). Anyway, this paragraph does not indicate the working width of the tape / sheet (that is, the width of the surface adjacent to the material being processed), but the total — that is, the size of the nozzle itself. This size in itself determines only the compatibility of the grinder with certain sheets / tapes. At the same time, clamp-like fasteners (see “Sheet fastening”), used in most classic vibrating instruments, usually fix the sheet only in front and behind, so that in such instruments the restrictions on width are not as strict as, for example, on length: the sheet may be somewhat wider, and somewhat narrower than the nominal size. However, such possibilities should be clarified separately, and for a full guarantee it is better to clarify whether a particular machine allows deviations in width. The situation is similar with delta sanders, where Hook-and-loop is traditionally used: a discrepancy in width technically does not prevent the installation of a nozzle, but not all models allow this. As for the band tools, they may allow the installation of a narrower band — but not a wider one.

As for the working width, it, usually, corresponds to the general one, or (in some vibration models) differs slightl...y from it. Anyway, the working width is given under Sole Size (see below).

Sheet fixing

The method of fastening the sanding sheet, provided for in a grinder with a vibrational principle of operation (vibration, delta sanding, multifunctional — see "Type").

— Clamps. Usually, this option provides a pair of clips located in the front and back of the sole. It can only be implemented in rectangular soles — for triangular soles used in delta grinding models, such devices are not suitable. Clips are somewhat less convenient than hook-and-loop, they require both more steps to secure the sheet, and more attention during these steps. On the other hand, this type of fastening is much more reliable than Hook-and-loop, it perfectly fixes the sheets and can be used even in the most powerful machines that work with high loads. In addition, compared to Hook-and-loop, clips are as versatile as possible (from the inside, the sanding sheet can have any surface — the main thing is that it fits in size) and more durable (practically do not lose their properties over time). And thanks to the durable materials that are usually used in the design, the likelihood of breakage of such a latch is minimal. Therefore, it is this option that is used in the vast majority of classic vibration machines — with rectangular soles.

— Hook-and-loop. Fastening according to the principle of a classic Hook-and-loop fastener: the sole has a surface with a set of microscopic hooks, and the underside of the sanding sheet is made of felt, for the fibers of which the hooks are hooked. Th...e main advantage of this option is that it has no restrictions on the form. So it is Hook-and-loop that is used in all modern delta sanders and multifunctional models (see "Type"), although in the second case they can be combined with clips. In addition, “sticking” and “unsticking” sheets on such a sole is easier and faster than changing nozzles in clamps. On the other hand, the reliability of fixation is somewhat lower than that of clamps; and over time, the effectiveness of Hook-and-loop can be further reduced due to wear on the hooks (the felt surface of sanding sheets also wears out a lot, but the working side of the sheet usually becomes unusable much earlier than the fastening one). In addition, this method of fastening is only suitable for a certain type of sheets — with a reverse surface for Hook-and-loop. In light of all this, this option is extremely rare in vibratory machines with rectangular soles — more often a combination with clamps is used, and most of these models use only clamps. Although in some situations, Hook-and-loop may be the best option for such a tool — for example, if high loads are not expected, and it is desirable to change the sheets without unnecessary delays.

— Hook-and-loop and clips. A combination of both options described above in one tool. The specific features of this combination directly depend on the type of grinder. So, in multifunctional models, different types of latches are usually provided on different removable soles: clips on a rectangular one, Hook-and-loop on a “delta”. Thus, each version of the working surface uses the method of fastening that is optimally suitable for it. And in vibration models, this design makes the machine as versatile as possible, allowing you to use sheets with it for both Hook-and-loop and clips.

In box

Additional handle. Separate handle for a second hand. Theoretically, such equipment could make the instrument more comfortable to hold with two hands. However, in fact, the absence of an additional handle is often not critical: many tools without it are either intended to be held in one hand (like some straight grinders, see "Type"), or have other adaptations for a second hand (for example, a ledge on the body). So to answer the question of whether you need an additional handle, you need to take into account the type and size of the grinder, as well as the features of the planned work. Also note that by default such a handle is designed for right-handers, and the possibility of its use with left-handed holding should be specified separately.

Charger(charger). A device for charging the battery in a grinder with the appropriate type of power supply (see "Power supply"). Also in this paragraph, a specific model of the charger is usually specified. In itself, the presence of a "charger" in the kit eliminates the need to look for and buy it separately; at the same time, such a charger is optimally suited to at least the “native” battery, and often also to other compatible batteries. And data on the model will be useful, first of all, in case the complete charger is lost or fails and you have to buy the same or similar one instead. In addition, knowing the charger model, you can find detailed data abo...ut it and evaluate its characteristics and features (compatibility with various batteries, additional functions, etc.). At the same time , the “without charger” package is also very popular — see below for more on it.

— No charger. This feature is indicated exclusively for battery models (cars with other types of power supply — see "Power Source" — by definition do not have a charger, there is no need to specify this point for them). The meaning of this configuration is that modern grinders most often use standard batteries, which are also suitable for other power tools of the same brand and are designed, respectively, for standard “chargers”. Thus, if the "household" already has a battery tool, then the charger for it may be suitable for the grinder, you will not need to overpay for the second copy of the charger. And even if the charger is not available, usually, it can be purchased separately without much difficulty (moreover, some tools also allow you to choose the most suitable model of such a device from several options).

Case / bag included. The presence of a case or bag for storing and transporting the tool. The case is a suitcase and is made of durable material, usually there is a place not only for the machine itself, but also for working attachments and other additional accessories. The bag is soft, which allows it to be compactly folded when there is no need for it. Check the availability of a case or bag immediately before buying.

Dust collector. Container for collecting dust and other contaminants that occur during operation. See "Advanced — Connecting the dust box" for details.

Barbell. A long rod significantly expands the "radius" of the tool: with such equipment, you can reach a great height, process a large area without rearranging the platform or other stand, etc. Such features are relevant primarily when processing walls, so the vast majority of grinders with rods in the kit are wall grinders(see "Type").

Noise level

Approximate noise level generated by the grinder during operation. Note that this indicator is quite approximate, because. actual "loudness" can vary markedly depending on the type and shape of the material being processed, the surface it is placed on, and other circumstances. In addition, different manufacturers may use different measurement methods. Nevertheless, this indicator makes it possible to assess how comfortable this or that model is in operation and whether special hearing protection is required.

The most “quiet” modern grinders give out about 65 dB — this is comparable to loud speech at a distance of 1 m; in the loudest, the noise level reaches 107 dB — this is the volume of an industrial workshop.

Weight

The total weight of the grinder; for battery models (see "Power Source"), usually, it is indicated without taking into account the battery.

This indicator has two meanings. On the one hand, light weight has a positive effect on manoeuvrability and reduces fatigue during work — especially when processing vertical surfaces and ceilings, as well as in other situations where the tool has to be held on weight. On the other hand, for grinders with a vibrational principle of operation (see "Type"), used for processing horizontal surfaces, a significant weight is considered optimal: it allows the tool to fit closer to the material being processed, and also contributes to stability and retention. So when choosing such a model by weight, it is worth considering the features of its intended application.