Tap type
The tap type is indicated by the type of controls installed in it. A number of features of both management and application in general depend on this. Nowadays, on the market you can find
single cross handle,
two cross handle,
single lever (including those with additional
touch control),
non-contact and
thermostatic taps, as well as
push button models, which include both
self-closing and
thermostatic with a button. Here are the main features of these options:
— Single handle. Taps controlled by a single rotary handle (or a lever that moves in only one plane). In fact, they are not even "taps" as such, since they cannot mix hot and cold water and only regulate the pressure of the water supplied to them. It makes sense to use single handle models where the water temperature is constant and/or it makes no sense to regulate it — for example, in models for a kitchen filter (see "Suitable for"), for a washbasin where only cold water is used, or for an English-style washbasin, where hot and cold water is supplied from separate taps and mixed in the sink.
— Double handle. The classic design of taps, which does not lose popularity nowadays: two rotary handles responsible for
...hot and cold water, respectively. This design is simple and inexpensive, while being reliable, moreover, it is convenient for precise temperature control. In addition, two handle taps are not afraid of the difference in the pressure of hot and cold water, and therefore it is recommended to use them with boilers. The disadvantage of this option is the impossibility of changing the pressure separately from the temperature and vice versa — any change requires turning both valves, while the pressure and temperature can fluctuate.
— Single lever. Taps where the flow of water is controlled by a single lever. Most often, turning the joystick from side to side in such models regulates the temperature, and tilting relative to the axis of rotation controls the pressure. This allows you to adjust the temperature without changing the pressure (and vice versa) and even “remember” the selected temperature option (just lower the lever to close without turning it sideways). At the same time, such devices are less accurate in adjustment than double cross handle ones.
Occasionally, you can also find a more specific variety — single-lever taps, supplemented by a separate temperature control lever (see below). In such models, the main joystick controls only the pressure.
— Push button. Models of mixers in which the control of turning the water supply on and off is assigned to a button. The first press turns on the water flow, the second turns it off. The button can be either an auxiliary means for conveniently turning on/off the water, or the main control element for the tap. In the latter option, to adjust the water supply pressure, the button is often made rotary.
— Self-closing. A variety of taps with button activation. However, here the button works on the principle of a timer: when you press it, water flows, and then a special mechanism gradually returns the button back, blocking the flow. Closing time is selected in such a way that one press allows you to more or less effectively wash your hands. Such devices are especially popular in public places, such as toilets of cafés, shopping centres, cinemas, etc.: there is no need to worry that an inattentive visitor will forget to turn off the tap. Most often, these taps are single-temperature, but there are also models with a temperature adjustment lever (see below).
— Thermostatic. Taps that have a thermostat function — that is, capable of automatically maintaining the temperature set by the user. Such models are extremely convenient: when the pressure or temperature of the water in the pipes fluctuates, you do not need to fiddle with the settings — the device will independently select the operating mode so that the outlet temperature does not change (or at least these changes are minimal). The main disadvantage of thermostatic models is the complexity of the design and, as a result, the high cost. In addition, many of them require an electrical connection. For control, models may include rotary controls or a button (see above).
— Non-contact. Models operated in a non-contact way — without the need to touch the device. This format of operation is most popular in washbasin taps (see "Suitable for"): in such models, a sensor is used that reacts to the presence of the user's hands under the spout. This is especially convenient in common areas where it is undesirable to touch the tap once again. There are other types of non-contact models — in particular, devices for the kitchen or shower. In the first case, it can be inconvenient to open an ordinary tap with dirty hands after kitchen work. At the same time, the control may not be completely contactless — there are devices with valves or other equipment for pre-setting the temperature, while the sensor in them works only as a water flow switch. And touchless shower taps necessarily have an additional control for setting the temperature; the sensor in them reacts not just to the hands, but to the whole person.
— Single-lever + touch. A variety of single-lever mixers (see above), equipped with an additional switch. As in conventional single-lever models, the joystick in such devices is used to adjust the pressure and temperature; the difference lies in the fact that the water is opened not by a lever, but by the mentioned switch. In other words, it is enough to set the optimal pressure and temperature once using the joystick — and then you can turn on the water by simply touching the switch. The device of the switch itself can be different: in some models, the entire tap's body plays its role, in others a special button or even a foot pedal is provided. The exception is the non-contact models described above — they may be similar in design and method of use, but all the same, these taps are classified into a separate category.Handle design
The shape of the handles provided in the design of the tap of the corresponding type — usually two-valve (see "Tap type").
This feature mainly affects the appearance of the structure, but different design options also have practical application features:
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Cross. Gates in the form of classic four-pointed crosses are the most popular design nowadays. It is great for retro-style taps, but can also be used in more modern designs. However, the main advantage of this option is the presence of reliable stops under the fingers, which makes cross handles very convenient to use. This is primarily due to their popularity. The disadvantages of "crosses" include some difficulty in cleaning due to the abundance of protruding parts; however, to facilitate this task, the bars of such a handle can be made removable.
—
Round. This category includes both strictly round valves and parts that have small protrusions or recesses for a more secure grip (and in the first case, for the same purpose, a special notch may be provided around the circumference of the valve). Anyway, the main advantages of round products are a neat appearance and maximum ease of cleaning. On the other hand, this shape is the least secure to hold, requires a tight grip, and is most likely to slip the handle in the hand when turning. However, most often modern taps do not require much effort, and this moment is not particula
...rly critical.
— Triangular. Handles with three pronounced cutouts or protrusions. The specific shape may be different: some models are very close to round, others have the shape of triangles, others differ from cross handles only in the number of rays. The stronger the shape of such a handle differs from a circle, the more reliable it is to hold. On the other hand, sometimes the best option in terms of design are more rounded models.
— Square. Handles with four pronounced cutouts or projections. Note that a strictly square shape is rare, mainly in expensive designer taps (in fact, for design reasons, it is used in them). Much more popular are "square" handles in the form of a kind of star with four rays/petals. This is a kind of compromise between round and cross-shaped: the handle turns out to be more secure in holding than round, and more convenient to clean than the "cross".
— Polygonal. "Handles with corners", not related to the triangular or squared described above. The most popular type of such parts is round rotary knobs with a set of protrusions — “rays” (from 5 or more) for reliable retention; however, there are also more specific options — for example, an oblate polygon that resembles a figure eight.
— Oval. Handles having an oval or close to it shape (for example, a rectangle with rounded corners). One of the options for this design is bath and shower taps, in which the body has a horizontal layout and elongated proportions, and the handles are located on the side ends of the body and are actually its continuation. Another option is a round handle shape with a flat cut on one edge for added retention. There are other, more specific options. However, anyway, "ovals" are rarely used, mainly among designer-level taps, and the role of this form is more aesthetic than practical.Jet depth
Distance from the fixing point (for vertically mounted taps) or from the centre of the mounting hole (for horizontally mounted taps) to the middle of the spout. It is a characteristic that determines the "reach zone" of the tap.
Water jet angle
The angle of the water jet produced by the tap, relative to the vertical. Generally stated for full head; with partially blocked water, this angle is smaller. Anyway, the water jet is usually directed towards the user, and the greater the angle of inclination, the farther from the spout the point of incidence of the jet will be placed. However, in most cases this point is not critical; problems can arise only in very cramped conditions, with small basin sizes.
Stop valve
Material and design features of the valve (valves) responsible for opening and closing water in the tap.
—
Rubber. Valve material for low-cost one- and two-valve mixers (see “Product type”). Rubber is inexpensive, easy to replace, and resistant to contaminated water (unlike ceramics). On the other hand, rubber valves have a relatively short service life — when they wear out, they begin to leak, and they have to be changed time to time.
—
Ceramic. These valves are based on a pair of ceramic-metal plates polished for maximum contact and tightness. They can be used both in cross-handle and lever taps (see "Product type"). This material is much more durable than rubber, and in the case of a single-lever tap, it also makes adjustment easier, because the friction between the plates is low, and it is much easier to move the lever than with a ball valve. The disadvantage of ceramics is the sensitivity to water contamination by solid particles — getting between the plates, they can break the tightness of the valve. Therefore, it is recommended to install filters in front of such taps.
—
Electromagnetic. A type of valve used in all non-contact mixers (see "Product type"), as well as some models of a different design — in particular, push-button and single-lever with touch. As the name implies, an electromagnet is responsible for opening and closing water i
...n such models. At the same time, the valve in most models has only two positions — “open” and “closed” — and does not imply pressure adjustment. But the temperature controller can be provided — for example, in the form of an appropriate lever (see above). Electromagnetic valves are quite efficient, but expensive and require external power to operate.
— Ball valve. A type of valve originally developed for single-lever taps (from which the tendency to call such devices "ball valves" came from, which is not technically correct). At the heart of such a valve is a spherical element with a special slot through which water is supplied; when the lever moves, the slot occupies one position or another, on which the pressure and temperature of the water depend. In domestic taps, this type of valve is considered obsolete and is rarely used.Water flow
The maximum water flow during the operation of the tap, in other words, the maximum amount of water that it can pass through in a minute. This characteristic is important, foremost, for models designed for baths (see "Suitable for"): the greater the throughput, the faster the bath will fill. However, the meaning of this paragraph is not limited to this. First, flow information can be useful in certain calculations related to water supply — for example, to calculate the required pump capacity. Secondly, high-end taps can be equipped with aerators to achieve a powerful and efficient jet with low water consumption; the consumption indicated in the characteristics allows you to evaluate the efficiency of such devices in comparison with analogues.