CZ15805U1 - Hand drier - Google Patents

Description

Hand dryer

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CZ 15805 Ul

Hand dryer

Technical field

The invention relates to a hand dryer which comprises a housing comprising an air propellant which blows air out of the housing so that the user can dry his hands.

BACKGROUND OF THE INVENTION

Presently, hand dryers are known which include a blower and an electric heater, generate a stream of hot air and blow it out of the housing through the outlet. Hot air slowly evaporates water from the hands inserted into the air stream. In the general arrangement of prior art hand dryers, the motor rotates the vanes and generates an air stream that passes through the electric heater, which heats the outgoing air.

Some of the water may drip from the hands, either due to gravity or because the user shakes hands or shakes me to shorten the long drying time, in both cases soaking clothes or shoes.

Such circumstances may cause discomfort or disgust to the user. Some of the dripped water can also reach the floor, creating health and safety problems and increasing cleaning requirements.

The design of existing hand dryers has the following disadvantages:

The drying time is long, usually more than 40 or 45 seconds.

Some of the water drips from the hands and can soak the user, which can cause discomfort to the user's disgust.

Some of the water adhering to the hands may fall to the floor, creating undesirable hygiene, safety and maintenance situations, especially in busy public places.

Electricity consumption is high, as in addition to the blower, electric heaters are also supplied to heat the drying air.

The essence of the technical solution

The technical solution relates to a hand dryer with features which ensure that the hand is dry in a short time and prevents water dripping on the user and the floor, all with less energy consumption than hot air dryers.

The hand dryer according to the invention comprises at least the following elements: a box or a cabinet; a drying chamber for insertion of the hands of the user which is integrated in the housing; proximity detectors located in the drying chamber; room temperature high speed air generating means; and a plurality of air outlets arranged on the front and rear walls of the drying chamber, each outlet forming a plurality of small openings arranged in rows or linear groups on opposite walls of the drying chamber such that the outgoing air forms a type of high-speed air curtain or blade.

The angle at which air strikes the surface of the hands has been optimized to use gravity to remove water. The amount, speed and direction of air will remove water from your hands quickly and cleanly.

In a first embodiment of the invention, a plurality of outlets located on both sides of the chamber lie at the same height and are connected to a single blower via air ducts.

All the user has to do is put their hands in the drying chamber and, when the high-speed air begins to flow, pull their hands out of the chamber so that the high-speed air curtains sweep away the water from their hands. The water is removed quickly, drying takes no more than 7 seconds.

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The removed water falls into the drying chamber, collects at the outlet and is piped to a tank inside the dryer.

Since the water does not need to be heated, the power consumption is less than 50% of the consumption of the existing hot air dryers.

In a second embodiment of the invention, each group of outlets form vertically spaced separate nozzles connected to an air propellant by means of an air distribution system, where air is supplied to the nozzles of each group sequentially, first blowing air through the upper nozzles and then, respectively, nozzles located below. Thus, the exhaust air drives the water from top to bottom during the drying cycle.

The user's cooperation during the drying process is not necessary as the position of the air curtains changes.

In order to achieve high-speed air blowing from the various nozzles in the correct order, the dryer may comprise either a single blower and the blowing of the air may be controlled by opening and closing the valves, or the dryer may include several blowers. height and blowers are switched on gradually according to the commands of the control card, which is part of the dryer.

To achieve room temperature and high speed air flow, blowers are used which operate at speeds of more than 20,000 rpm and accelerate air to speeds in the range of 30 to 95 meters per second.

Alternatively, the outlet groups may be connected directly to the high-speed air drive means, which are switched on simultaneously at the beginning of the drying cycle and operate throughout the cycle, so that air is exhausted simultaneously by all outlet groups at different heights.

To ensure simultaneous high-speed air output through all nozzles, the air drive means comprises two blowers, the outlet side of which is directly connected to the outlet groups located on both opposite sides of the drying chamber.

Alternatively, the dryer may comprise a device for evaporating water coming from the drying chamber, the device comprising a low power electronic card-controlled electrical resistor and a fan that blows out the resulting water vapor out of the housing.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to complete the following description of the embodiment of the invention and to facilitate understanding of its features, the drawings, in which:

Fig. 1 is a schematic perspective view of an embodiment of a hand dryer according to the invention.

Fig. 2 is a vertical side section of the hand dryer.

Fig. 3 is a vertical front cross-sectional view of the hand dryer in a plane that passes through the drying chamber.

Fig. 4 is a top view of the hand dryer of the preceding figures.

Fig. 5 is a schematic side cross-sectional view of an alternative embodiment of a dryer having a single blower, the outlet of which is connected to different external outlets by means of separate ducts provided with shut-off valves to control the air distribution.

Fig. 6 is a side cross-sectional view of an alternative embodiment of a hand dryer having several blowers that can be operated independently and which drives air at high speed to the outlets located at different heights.

Fig. 7 is a perspective view of the hand dryer of Figs. 5 and 6.

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Fig. 8 is a vertical front cross-sectional view of the hand dryer of Fig. 7 in a plane that passes through a drying chamber on which only the drain pipe and the lower tank are shown inside the housing.

Fig. 9 is a schematic side elevational view of an embodiment of a hand dryer which is provided with several groups of air outlets located at different heights and connected directly to the simultaneously operating blowers.

Fig. 10 is a schematic vertical cross-sectional view of the hand dryer of Fig. 9 in a plane that passes through the drying chamber.

Fig. 11 is a schematic front view of a hand dryer provided with an evaporator.

Fig. 12 is a schematic side vertical cross-section of the hand dryer of Fig. 11.

Fig. 13 is a perspective view of a water vaporizer without a steam outlet channel.

Fig. 14 is a longitudinal vertical section through an embodiment of a water vaporizer.

Fig. 15 is a side view of an evaporator device showing a fan for blowing water vapor out of the dryer.

Fig. 16 is a longitudinal vertical section of an embodiment of an evaporator in which an electrical resistor is placed in a thermally conductive housing with heat exchange fins.

Examples

In the embodiment shown in Figs. 1 to 4, the hand dryer comprises a housing 1 housing a high speed air generator 21 which forms a blower with a rotation speed exceeding 20,000 rpm.

The room temperature air sucked from outside through the filter 8 is accelerated to a high speed and the air ducts 31 are directed to the nozzles 41 located on the front and rear walls of the drying chamber 14. The drying chamber 14 is open from the top and sides, in horizontal longitudinal section. a drying chamber of a V-shaped configuration, the apex of which is directed towards the rear central portion of the housing.

The output air velocity is between 30 and 95 meters per second.

When the user puts his hands into the drying chamber 14, the detectors 11 respond and send a signal to the electronic control card 12, which ensures the operation of the air generator 21 for as long as the hands are present in the drying chamber 14.

If the detectors remain active for a period of time that is longer than the time required to dry the hands, the control card 12 evaluates that there may be an object in the chamber and, for safety reasons, turns off the air generator 21.

The air ducts 31 have an opening 30 for passing a portion of the air into the housing 1 so as to create a slight overpressure therein to prevent particles and dust from passing into the housing.

In normal use, the user places his hands in the chamber 14 to start generating high speed air. Thereafter, the user slowly pulls his hands out of the chamber and the air curtains 6 sweep the water into the sloped groove 15 formed in the bottom of the drying chamber 14.

The water is discharged through the outlet 16 and the drain pipe 7 to the collecting tank 5.

In the embodiment of Figs. 5 and 6, the opposing walls of the drying chamber 14 have air outlet groups formed of several vertically spaced nozzles 41, 42, 43.

In the example of FIG. 5, the air drive means is a single blower 21 that drives air at high speed into the inner chamber 13, which is connected to the nozzles 41, 42, 43 by means of the respective air ducts 31, 32, 33. provided with shut-off valves 3a, 3b, 3c, which are selectively operated from the electronic control card 12.

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In the initial phase, the electronic card 12 opens the valves 3c and air is guided through the air ducts 31 to the upper nozzles 41.

In the second stage of the drying cycle, the electronic card 12 closes the valves 3c and opens the valves 3b so that air is guided through the air ducts 32 to the nozzles 42 located in the central part of the interior of the drying chamber 14.

In the final drying phase, the electronic card 12 closes the valves 3b and opens the valves 3a so that air is routed through the air ducts 33 to the lower nozzles 43. After the drying cycle is completed, the dryer is switched off.

In the embodiment shown in FIG. 6, the means used to generate the high velocity air stream is the three blowers 21, 22, 23.

The blower 21 drives the air at high speed through the air ducts 31 to the upper nozzles 41, the blower 22 drives the air at high speed through the air ducts 32 to the nozzles 42, and the blower 23 drives the air at high speed through the air duct 33 to the lower nozzles 43.

In this case, the air ducts 31, 32, 33 are not provided with shut-off valves and the gradual flow of air from the nozzles 41, 42, 43 is achieved by means of selective blowing of the blowers 21, 22, as commanded by the control card 12.

The arrangement of the nozzles 41, 42, 43 provided with small outlet openings is apparent from FIGS. 7 and 8.

In the embodiment shown in FIGS. 9 and 10, each side of the chamber is provided with multiple nozzles 41, 42, 43, 44, 45 that are located at different heights of the chamber. The means that drives air at high speed into the nozzles 41, 42, 43, 44, 45 are two blowers 21, 22 connected directly by means of a corresponding number of air ducts 34, 35 to respective groups of outlets 41, 42, 43, 44, 45 arranged on opposite walls. drying chambers.

Both blowers 21, 22 turn on and off at the same time as commanded by the control card 12, which operates on the basis of stimuli from the presence detectors. Both blowers operate throughout the drying cycle, with air coming from all nozzles 41, 42, 43, 44, 45 at the same time.

Alternatively, as shown in Figures 11 and 12, the dryer may be provided with an evaporator 9 for evaporating the water that has come from the drying chamber 14 and blowing it out in the form of water vapor out of the housing 1 instead of the collecting tank 5.

As shown in Figs. 13, 14 and 15, the vaporizer 9 comprises a cylindrical body 91 arranged horizontally 30 within the housing 1 and provided with an upper opening 92 for connecting a drain pipe 4 that supplies water from the drying chamber 14 to the vaporizer 9.

An electrical resistor 93 is disposed within the cylindrical body 91 and connected to the control card 12.

Outside of the cylindrical body 91, at its opposite ends, there is a fan 94 that blows out the water vaporized on the resistor 93 outward, and a bent tube 95 that draws steam out of the housing.

Alternatively, as shown in FIG. 16, the resistor 93 may be inserted into a thermally conductive housing 96, which is provided with heat exchange ribs 97 for optimal use of the resistor.

In this case, it appears appropriate to insert into the upper opening 92 through which water enters the body 91 a grid or mesh 98 to divide the water into fine drops, thereby facilitating their evaporation upon impact on the ribs 97.

It will be understood that the materials, shapes, size and arrangement of the elements described above may be varied provided that the essential features of the invention as defined by the appended claims are not altered.

Claims (19)

PROTECTION REQUIREMENTS A hand dryer, comprising a housing in which a means for propelling air to an outlet is mounted, comprising: a drying chamber (14) which is integrated in the housing (1) and is vertically open towards the top A dryer according to claim 1, characterized in that each of the two groups of outlets comprises nozzles (41) arranged at the same height and connected via a duct (31) to a single high-speed air generator (21). 3. The dryer of claim 1 wherein each of the two outlet groups 20 includes a plurality of spaced nozzles (41, 42, 43) spaced vertically. A dryer according to claim 3, characterized in that the nozzles (41, 42, 43) are connected to the high-speed room air propulsion means by means of a distribution system for supplying air to the nozzles (41, 42, 43), the air leaving first upper nozzles (41) and subsequently and successively nozzles (42, 43) that occupy adjacent lower positions. A dryer according to claim 4, characterized in that the high-speed air drive means comprises a single blower (21) whose outlet is connected to each of the outer nozzles (41, 42, 43) by means of air ducts (31, 32, 33) provided with respective shut-off valves (3a, 3b, 3c), which are selectively operated by an electronic control card (12) to achieve air discharge out of the upper nozzles (41) and subsequently and successively by other nozzles (42, 43) having adjacent lower positions, wherein the air curtains (6) perform a cleaning action from the top to the bottom of the drying chamber (14). 5 of one of the opposite walls of the drying chamber (14). -5 CZ 15805 Ul 5 shows parts of the housing (1) and laterally in divergent directions, and the drying chamber (14) has a V-shaped configuration with a top or a central edge oriented towards the rear central region of the housing (1) from above; a high speed air generating means (21, 22, 23) arranged inside the housing (1) for sucking air through the filter (8) from outside the housing and accelerating it at room temperature A dryer according to claim 4, characterized in that the air drive means are a plurality of blowers (21, 22, 23), the outlets of which are respectively connected to external nozzles (41, 42, 43) located at different heights, the blowers ( 21, 22, 23) are actuated by the electronic control card (12) sequentially and in a specific order to achieve successive blowing of air out through the upper nozzles (41) and subsequently by other nozzles (42, 43) occupying adjacent lower positions. A dryer according to claim 1, characterized in that each of the outlet groups comprises a plurality of nozzles (41, 42, 43, 44, 45) directly connected to the high-speed air driving means (21, 22) which are switched on simultaneously of the drying cycle, operate throughout the drying cycle and blow a high-speed air stream simultaneously through all nozzles (41, 42, 43, 44, 45). A dryer according to claim 7, characterized in that the air drive means are two blowers (21, 22) whose outlets are directly connected to the nozzles (41, 42, 43, 44, 45) located on respective side walls. drying chambers, by means of corresponding distributors (34, 35), each blower (21, 22) feeding the output groups (41, 42, 43, 44, 45) to A dryer according to any one of the preceding claims, characterized in that the air nozzle (41, 42, 43, 44, 45) comprises a plurality of juxtaposed openings and / or slots with a cross-section between 5 and 75 mm ² to ensure high air discharge speed in the form of apertures or blades directed from the inner walls of the drying chamber (14) to the central region of the drying chamber (14). A dryer according to any one of the preceding claims, characterized in that the drying chamber is closed at the bottom by a sloping trough (15) for collecting water which has separated from the hands during the drying cycle. 10 to a speed exceeding 30 m / s; two groups of air outlets arranged on the front and rear walls of the drying chamber (14) and connected to the high speed air generating means; and presence or proximity detectors (11) arranged in the walls constituting the drying chamber (14) and connected to the electronic control card (12) for switching the operation of the high-speed air generating means on and off. A dryer according to claim 10, characterized in that the sloped channel (15) 15 has an outlet (16) to which a drain pipe (7) is connected to drain the collected water into the lower tank (5). A dryer according to claim 11, characterized in that the lower tank (5) is arranged inside the housing (1). A dryer according to any one of the preceding claims, characterized in that: 20 proximity detectors (11) are arranged on the inner walls of the drying chamber (14). A dryer according to any one of the preceding claims, characterized in that at least one air filter (8) is provided inside the housing (1) for the passage of air drawn by the high-speed air generator (s) (21, 22, 23). A dryer according to any one of the preceding claims, characterized in that at least one air outlet valve (30) orifice (30) is oriented inside the housing (1) to provide excess pressure within the housing (1) to prevent solid particles or moisture from entering the housing (1). 1). A dryer according to claim 10, characterized in that it comprises an evaporator (9) for evaporating the water coming from the drying (14), the evaporator (9) comprising a low power electric resistor (93) controlled by an electronic card (12) and a fan (9). 94) 30 for blowing steam out of the housing (1). A dryer according to claim 16, characterized in that the electrical resistor (93) is arranged inside a horizontal cylindrical body (91) having an opening (92) at the top for connecting the drain pipe (7) for water coming from the drying chamber (93). 14). A dryer according to any one of claims 16-17, characterized in that the valve 35 tor (94) is disposed at one of the open ends of the cylindrical body (91) and the steam outlet pipe (95) for draining the steam out of the housing (1). the opposing opening of the cylindrical body. A dryer according to any one of claims 16 to 18, characterized in that the resistor (93) is arranged inside a thermally conductive housing (96) having heat exchange ribs (97).