Comparison Navin Piruet R Sensor 480x800 10-021033-4880 vs Navin Loft E R Digital 500x800 10-043052-5080

The design of the towel rail determines primarily its appearance, but can affect more practical aspects - for example, the installation features. The most popular modern designs include serpents (incl. M-shaped and P-shaped a/href and" (including volumetric), protrusions in the direction of, and angular constructions. In addition, there are original designer solutions. They are all described below.

— P-shaped coil. Type of coils described above, in which the main (leading) pipes are bent in the form of the letter «P». Most often, between the «legs» of this letter there is an additional coil from pipes of a smaller diameter - thus, with small dimensions the towel rail provides many «seats». However, there are also maximally simple models, without additional coil.

— M-shaped coil. Coils (see above), in shape resembling the letter M, laid to the side. In essence, it is a version of the classical S-shaped coils, having three bends: two to one side and one, between them, to the other.

— Ladder. The design of such towel rail is based on two vertical elements (tubes or bars), between which are located horizontal jumpers-crossbars, on the manner of steps of the usual stairs (hence the name). Modern models - «ladders» are very diverse, ca...n have different width and height, differ in the number of crossbars, equipped with additional shelves for drying (more about all this see below), etc. At the same time, the price of such devices is quite low. Of the drawbacks of the ladder it is worth noting that the towel hung on this design is likely to close several bars under itself - this makes it difficult to simultaneously dry several towels (although it increases the speed of the process by contacting the tissue at once with several heated bars).

— Volumetric ladder. Type of ladder (cf. above), in which the jumpers are not located directly between the vertical tubes, but are displaced relative to them forward and/or backward. The simplest variant of the three-dimensional ladder is one row of crossbars moved forward; this slightly increases their useful length at the same width of the entire structure, but on this the key differences with the normal ladder end. There are more complicated variants, with the arrangement of the jumpers in two vertical rows - for example, one row is directly between the tubes, and the other is forward or one is offset forward and the other is backward. These towel warmers are very useful if you need to dry several towels at the same time, but they are usually quite expensive.

— Side protrusions. This design can be called «one-way ladder»: it also combines vertical elements and horizontal jumpers, but the jumpers are fastened only on one side - the second is located «on weight». This gives the towel warmer an original look. However, in water models of this design is quite difficult to ensure efficient water circulation, so the «protruding» design did not get widespread.

— Corner. As the name suggests, models of this type were originally designed to be installed in the corner of the bathroom. This requires appropriate design features; they can be different in different models. Note that there are options for both «normal», internal angle, and external, protruding.

— Designer. This category includes all towel warmers with original appearance and not belonging to any of the above categories. An indispensable element of their design is only the presence of horizontal jumpers (so that, actually, there was where to hang towels), but the options for their mutual arrangement, connecting each other and with a support, etc. are limited only by the imagination of designers.

The maximum power consumed when operating an electric towel rail (or combined model when operating from an electrical grid; see «Type»). As a rule, this value corresponds to the operating thermal capacity of the electric heater, so that it is possible to estimate the overall efficiency of such devices from the power consumption. In addition, energy consumption and network load depend on this indicator.

As a rule, manufacturers select the power consumption depending on the size of the towel bar - to ensure it is sufficient for heating and effective drying. This requires relatively little energy. But in the role of a heater for the bathroom is more convenient to use water heaters - they are easier to achieve high power (and such heating is cheaper). Therefore, electric heaters in modern models have low power - the devices more than 150 W are rare, and the most low-power devices do not reach and 50 W.

Towel rail controls can be represented by mechanical, electronic or touch programmers.

— Mechanical. Rotating handles or buttons directly connected to the control elements of the towel rail, in particular, a thermostat or thermostat for changing the heating intensity. This control is extremely simple and inexpensive, but its possibilities are very limited, and the accuracy of adjustments is lower than in electronic systems. Mechanical controls can be mounted on both the plug and towel rail.

— Electronic. Button control via electronic circuits. Although it is more expensive than mechanical, it provides more possibilities and increases the accuracy of temperature adjustments.

— Touch. It’s a kind of electronic system where the controls are not buttons, but sensors that respond to touch. The touch panels look more modern and have no protruding parts, making them less polluted and easier to clean. Touchscreen programmers are usually equipped with expensive models of towel warmers.

The distance between the axes of the main pipes connecting the towel rail. This parameter is critical in the selection of water towel rail and its frames into existing pipes. To ensure a neat design after installation, the spacing between the towel rail and the pipe in the wall must be the same. If the figures match, you will not need to use accessories in the manner of plumbing knees, adapters, adapters, etc. The classical dimensions for the interaxial distance are 400 mm, 500 mm and 600 mm.

Possibility to turn towel rail around the vertical axis, usually on the left or right side. This function allows you to change the position of the structure if necessary. So, for hanging towels are most convenient to deploy the jumpers at an angle to the wall, so that they are available from both sides; and hanging everything you need, you can turn them close to the wall, so that the towel rail does not take up excess space.

In some models (usually electric, see. «Type») the jumpers can be rotated not all at once, but separately, or in groups.