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Comparison Kraissmann 350 SB 13/16 vs Kraissmann 750 SB 20

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Kraissmann 350 SB 13/16
Kraissmann 750 SB 20
Kraissmann 350 SB 13/16Kraissmann 750 SB 20
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Typeverticalradial
Transmissionbeltbelt
Controlmanualmanual
Specs
Power consumption350 W750 W
Number of speeds55
Min. rotational speed580 rpm470 rpm
Max. rotational speed2650 rpm3030 rpm
Max. spindle travel50 mm
Chuck
Chuck typekeykeyless
Chuck diameter16 mm20 mm
Features
Functions
base incline
base incline
Power supply
Power sourcemainsmains
Supply voltage230 V230 V
More features
Weight17 kg18 kg
Added to E-Catalogseptember 2018january 2018

Type

Vertical. A classic type of drilling machine, designed mainly for small workpieces. A distinctive feature of such units is that the spindle with the drill in them can only move up and down, and the drill is guided to the desired point by moving the workpiece in a special movable mount. It makes sense to purchase such models for relatively simple work.

Radial. The design of the radial machine is based on a round central column, on which a spindle is mounted using a movable holder. Thanks to this, the latter can be moved not only up and down, but also in a horizontal plane — rotate relative to the column and change the distance to it. Another difference from vertical models is that the workpiece is placed motionless on the base plate, and "targeting" is carried out by moving the spindle. This makes it possible to drill rather large and massive parts with high accuracy — it is easier to move the spindle than a heavy workpiece. Thus, most of the radial machines are professional equipment, they have a fairly high performance and extensive capabilities.

Magnetic. Machines of this type during operation are fixed on a support using a magnetic (more precisely, electromagnetic) sole. In this case, both the workbench and the workpiece itself can play the role of a support, and many models can be fixed not only vertically, but also in a horizontal or inclined...position. This design makes it possible to work with large workpieces of almost any size, which is very convenient in the construction of bridges, pipelines, ships and other objects of a similar scale (when it is easier to bring the machine to the part, and not the part to the machine). At the same time, magnetic machines, usually, are quite performant and are able to work with large holes. On the other hand, such a tool is practically useless on a non-magnetic material (although with some tricks, such an application is also possible).

Power consumption

Rated power consumption of the machine. In this case, the total power consumption of the machine is indicated, which, as a rule, is equal to the power of the main engine responsible for rotating the spindle. The design may also include other motors - for example, for automatic feeding (see “Control”) or coolant pumping (see “Functions”) - they are also taken into account. The “gluttony” of such motors is relatively low for low-power machines, and the power of the main engine is one of the main characteristics for any machine: it determines the class of the unit and its general capabilities.

A more powerful motor allows you to drill at higher speeds (which reduces drilling time) and/or with higher torque (important for hard materials and large size drills/bits). Accordingly, the more powerful the machine, the more advanced, as a rule, it is, the more opportunities are available when working with it. The downside of this is that with increasing power, the dimensions, weight, price and, accordingly, energy consumption of the unit increase. Therefore, you need to choose based on this indicator taking into account the work for which the machine is purchased. So, for simple tasks (for example, a home workshop, where you plan to work only from time to time), a power of about 300 - 600 W is quite sufficient, for daily use in relatively “light” production (for example, furniture) - from 600 W to 1 kW, but for large metal parts, models fro...m 1 kW and above are recommended. We also note that, in addition to power, you should also focus on the maximum drilling size (see below).

Min. rotational speed

The lowest spindle speed provided by the drilling machine.

Note that this parameter is indicated only for models with more than one speed (see "Number of speeds") and/or speed control (see "Functions") — that is, if the speed can be changed one way or another. See “Maximum number of revolutions"; here we note that the ability to work at low speeds in some cases is critical — for example, when threading. Accordingly, the lower the minimum speed, the better the machine is suitable for such work, other things being equal. The most "slow" modern models are able to rotate at a speed of 30 – 40 rpm.

Max. rotational speed

The highest spindle speedprovided by a drilling machine; for models with only one speed, it is also indicated in this paragraph.

For the same engine power (see above), high RPM provides good performance, but torque is reduced; at lower speeds, on the contrary, the pulling force is increased, allowing you to “bite” into stubborn materials and make it easier to work with large diameter drills. Specific recommendations for optimal speeds depending on the type of material and drilling diameter can be found in special sources. At the same time, we note that a high-speed machine will not necessarily be “weak” in terms of torque — after all, many units allow you to reduce the rotation speed. However, efficient operation at high speeds still requires a fairly powerful engine, which accordingly affects the cost of the unit. Accordingly, it makes sense to look for a “fast” machine if you plan to work a lot with relatively soft materials, such as wood. But for metal, stone, etc. it is better to choose a relatively "slow" unit.

Max. spindle travel

The greatest distance that the spindle (quill) can lower from its original position. Theoretically, this is the maximum drilling depth that the machine can theoretically provide; in fact, this moment also depends on the size of the drill and the characteristics of the material. In addition, we note that manufacturers usually choose the stroke of the quill taking into account the general class and purpose of the machine; so this moment is rarely critical when choosing.

Chuck type

The type of chuck — a clamp for installing drills and other working nozzles — used in the machine.

Key. Chuck opened and closed with a special key. Also known as "gear" or "ring gear" because the wrench works like a gear. It is used to secure drills with a cylindrical shank; for this, the design has cams (usually three) that converge when closing and diverging to remove the drill. The cam clamp itself is quite versatile and is able to work with any drill or other attachment that has a round shank (regardless of its additional features). For example, even nozzles with a Weldon shank are sometimes put in such a cartridge (see below). Specifically, the key cartridge is considered somewhat more reliable than the quick-clamping one similar in principle; its main drawback lies directly in the use of the key, which can be lost. In addition, the replacement itself takes a lot of time.

Quick release. A chuck for cylindrical shanks, the design of the clamp is completely similar to the key (see above). The main difference is that the keyless chuck is opened and closed by hand, without the use of any special tools. Due to this, changing drills takes much less time (hence the name), and in general, working with such a cartridge is easier than with a key one. It is considered the best choice for those cases where you need to change drills frequently. The disadvan...tage of keyless chucks is considered by some to be less reliable than key chucks; however, this may turn out to be critical only at very high loads, and for normal use, the capabilities of such a fastening are quite enough.

— Morse taper. Morse taper is a specific type of shank used in drills and other similar bits. Such a shank, in accordance with the name, has a conical shape — the socket in the cartridge is designed for it. At the end of the shank, there is most often a foot — a flat ledge, which, when installed, is fixed in the groove of the cartridge and does not allow the drill to turn. However, there are other options for retainers — for example, with a thread, when a special rod is screwed into the end of the cone during installation. In order to select compatible drills, it is imperative to know the design features of a particular Morse taper chuck. Also note that such fasteners are available in several standard sizes (see "Morse Taper").

— Weldon. The Weldon clamping system features a cylindrical shank with a flat, a small flat notch on one side. The chuck has a clamping screw, which, when tightened, rests against the flat and fixes the drill in the socket. A rather exotic type of fastening, which has not received much distribution in the post-Soviet space. This is partly due to the fact that the Weldon drill can be clamped in a regular shank chuck without much difficulty (although this is not particularly recommended, as it can lead to imbalance at high speeds). This type of chuck is mainly used in magnetic machines (see "Type") — and then most often in combination with another, more common type of fastening (for example, quick-clamping).

— collet. A cartridge that uses the same working principle as an automatic pencil. The role of the clamp is played by a round sleeve, divided into several springy petals; in the working position, they are compressed and fix the drill, and to open it, you need to pull the chuck casing up, and the petals will disperse. This way of working is not reliable enough for full-size drilling machines, but it is optimally suited for high-precision units using small diameter drills (up to 4 – 5 mm).

Note that several chucks can be supplied with a drilling machine at once, including those for different types of shanks (for example, Morse taper and key). The latter significantly expands the range of working nozzles available for the unit. At the same time, a specific combination of fasteners can be practically any — except that the key and keyless chuck are not supplied in one set, because. they are designed for the same type of shanks.

Chuck diameter

The diameter of the chuck supplied with the shank; indicated for all types of cartridges, except for Morse tapers, which use their own notation system (see above).

The diameter of the chuck is usually denoted by the maximum diameter of the shank that can be placed in it (thinner drills are usually not difficult). Accordingly, the higher this indicator, the thicker working nozzles can be used with the machine.

For units equipped with several cartridges, the diameter is indicated by the largest of them.
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