This application claims the priority of United Kingdom Application No. 1707329.7, filed May 8, 2017, the entire contents of which are incorporated herein by reference.
The present invention relates to a hand dryer.
Hand dryers are often installed in public washrooms as an alternative to paper towels.
There are three main types of hand dryer on the market: “warm-air” hand dryers, “high speed” hand dryers and “air-knife” hand dryers.
Warm air hand dryers are very well known. They are invariably low flow, low speed machines which rely on heating the air to promote an evaporative drying effect at the surface of the hand. Examples include the Model-A Series of hand dryers manufactured and marketed by World Dryer Corporation, which is illustrated in
High speed hand dryers, as the name suggests, use high speed airflow (>80 m/s) to provide a momentum-drying effect at the surface of the hands. Examples include the Xlerator® hand dryer manufactured and marketed by Excel Dryer Inc. and the Airforce manufactured by World Dryer Corporation. Again the airflow is typically discharged through a single relatively large nozzle—or a cluster of smaller nozzles—and the mode of use is somewhat similar to the “hand-over-hand” action of the warm air dryer, with the hands being held or cupped together underneath the nozzle to dry them. However, instead of being evaporated, the majority of the water on the surface of the hands is instead driven or blasted from the hands by the high-momentum airflow. The airflow tends not to be heated, though waste heat from the motor may in some cases be used to heat the airflow to a degree.
The third general type of hand dryer is the air-knife hand dryer, examples of which include the Dyson Airblade range of hand dryers manufactured by Dyson (UK) Limited and the Jet Towel range of hand dryers manufactured by Mitsubishi Electric Corporation.
Air-knife hand dryers use an “air-knife”—effectively a sheet or curtain of fast-moving air—which moves across the surface of the hand and, as it does so, removes water mechanically by scraping or stripping the water from the surface of the hand.
In certain models of Dyson Airblade hand dryer—and also in the Mitsubishi Jet Towel range of hand dryers—two opposing, stationary air-knives are used: one for each side of the user's hand. The hands are inserted between the air-knives and then withdrawn slowly to effect the required relative movement between the hands and the air knives.
In the Mitsubishi arrangement—shown in
In the Dyson arrangement—which is described in UK Patent No. GB2428569 (hereafter, GB2428569) and reproduced in
Later models of Dyson Airblade hand dryer—one of which is described in European Patent No. EP2744380 (hereafter, EP2744380) and reproduced in
The present invention seeks to provide an improved air-knife hand dryer, in particular one having an improved air-knife outlet design.
According to the present invention, there is provided a hand dryer, the hand dryer comprising a nozzle, the nozzle comprising an elongate air-knife discharge outlet for discharging an air-knife across the width of a user's hand held flat in front of the outlet, thereby mechanically to scrape water from the hand as the hand is moved lengthwise relative to the air-knife, the nozzle comprising a straight part for facing the palm or back of the user's hand, the nozzle comprising a curved wrap-around end part for extending at least part way around the side of the user's hand, the elongate air-knife discharge outlet extending along the straight part of the nozzle and around the curved end part of the nozzle.
The geometry of the air-knife discharge outlet in accordance with the invention has been found to create a flow profile which targets the side of the hand with a relatively high-velocity jet of air. This high-velocity jet of air—which arises from the interaction of the air exiting the straight part with the air exiting the curved end part—is particularly effective for drying the area around the thumb of a user, which has often been a problem-area in prior art air-knife hand dryers: even those such as the one described in GB2428569 which utilise ergonomically-designed nozzles.
The nozzle may comprise two curved wrap-around end parts: one at each end of the straight part of the nozzle. In this arrangement, the discharge outlet may extend around both the curved end parts of the nozzle. This provides better drying of both sides of the user's hand rather than just one preferential side. In any event, the overall length of the nozzle, measured between the curved ends, is preferably between 100 and 150 mm for encouraging the user to hold the fingers of the hand closer together rather than splayed open. Thus, the wrap-around curved ends of the outlet—and the length of the straight section—combine to encourage a more closed hand position, which has the benefit of further reducing dry-time.
The radius of curvature of the curved end(s) is preferably in the range 5-50 mm.
The angle subtended by the curved end(s) is preferably in the range 45-90 degrees.
In a preferred embodiment, two such air-knife outlets are provided, one for each hand. The air-knife outlets may be arranged in a V-configuration when viewed from the front of the hand dryer.
The elongate discharge outlet may be a continuous slot less than 1 mm in width.
Embodiments of the invention will now be described with reference to the accompanying drawings, in which:
The basic configuration of the hand dryer 1 is similar to the hand dryer described in EP2744380. The hand dryer 1 comprises a main casing 3, which houses a ducted fan 5. A motor 7 is provided inside the main casing 3 to drive the fan 5, which draws air through the intakes 9 on either side of the main casing 3 (only one intake 9 is visible in
Each nozzle comprises a respective discharge outlet 11, 13 positioned on an underside of the dryer 1. The discharge outlets 11, 13 run along a front lower edge of the main casing 3 so that they are spaced from the wall.
The discharge outlets 11, 13 each comprise a continuous slot—less than 1 mm in width—arranged so that it runs generally plane-parallel with the wall. Because the discharge outlets 11, 13 are very thin the drying air is discharged at high speed in the form of a thin sheet or curtain of air: a so-called “air-knife”.
In use, the hands are inserted lengthwise front-to-back underneath the discharge outlets 11, 13 and the air-knives are directed down onto the hands to ‘scrape’ water from the hands as they are subsequently withdrawn underneath the discharge outlets 11, 13.
The hands are dried one side at a time, in similar manner to the hand dryer in EP2744380: first, the user passes his (or her) hands forth and back underneath the discharge outlets 11, 13 with the palm facing up towards the discharge outlets (the “standard pass”). Then—after turning over the hands—the user passes his (or her) hands forth and back underneath the discharge outlets 11, 13 with the back of the hands facing up towards the discharge outlets (the “reverse pass”). The “standard pass” and “reverse pass” may each be repeated, as required, and carried out in any order.
A conventional sensor arrangement (not shown) can be used to turn on the motor 7 in response to the detection of a user's hands. The same sensor arrangement may be used subsequently to turn the motor 7 off in response to a null detection, or else the motor 7 may be operated on a timer. Use of a sensor arrangement is not essential: the dryer 1 may alternatively be arranged for manual operation.
The air-knife discharge outlets 11, 13 are arranged in a V-configuration when viewed from the front of the dryer. This is intended to make the dryer more comfortable to use by allowing the user to bank his hands accordingly during both the standard pass and the reverse pass—similar to the manner described in EP2744380.
The hand dryer differs from the one described in EP2744380 in relation to the geometric profile of the air-knife discharge outlets 11, 13.
In the hand dryer described in EP2744380 the discharge outlets are straight. In the hand dryer 1, however, the discharge outlets 11, 13 are not straight. Instead, the nozzles 10, 12 each comprise a straight part 10a, 12a and two curved, wrap-around end parts 10b, 12b and the discharge outlets 11, 13 likewise comprise a straight part 11a, 13a—extending along the straight part of the respective nozzle 10, 12—and two curved, wrap-around end parts 11b, 13b: which extend around the respective curved end parts of the nozzles 10, 12.
The straight sections 11a, 13a of the discharge outlets 11, 13 are each arranged for facing the palm or back of the user's respective hand (in this case, depending upon whether the user is engaging in a ‘standard pass’ or a ‘reverse pass’). The curved, wrap-around end sections 11b, 13b are arranged for extending at least part way around a respective side of the hand.
The geometry of each of the air-knife discharge outlets 11, 13 creates a flow profile which targets the sides of the hand with a relatively high-velocity jet of air. This is illustrated in
The images shown in
The image in
By way of comparison, the image in
It is thought that the high-velocity jets of air observed in
In practice, the interaction is complex: but it can be visualised in simplified terms as the vector addition of component airflows
By contrast, in the region of the straight section of the discharge outlet, away from the curved ends, the airflow D is discharged uniformly straight and square-on to the user's hand 15 and there is no significant interaction between adjacent regions of the airflow D in the manner illustrated in
The velocity of the airflow directed on to the sides of the hands in discharge outlet shown in
The flow profile of the discharge slot in accordance with the invention is dependent upon both the radius of curvature—or ‘focal length’—of the curved end and the angle subtended by the curved end. This is illustrated in
For very long focal lengths—and consequently a large operational distance X—there may be a broadband reduction in the effectiveness of the air-knife to dry the user's hand: the air-knife will diffuse over distance. Nonetheless, the same essential flow profile characteristics will remain in accordance with the invention as they do for short focal lengths: there will still be a relatively high-velocity airflow targeting the side of the hand and a relatively low-velocity airflow targeting the face of the user's hand.
A preferred radius of curvature/focal length is considered to be in the range 5-50 mm, preferably 15-30 mm.
A preferred angle θ is considered to be in the range 45-90°.
The curved end sections 11b, 13b extend at least part way around the respective sides of the user's hand in use: one around the side of the hand where the thumb is located and the other around the opposite side of the hand. The overall length of the nozzle—being the distance Y between the curved ends 11b, 13b (see
Although the invention is described in the context of a one-sided air-knife dryer, the invention is applicable also to two-sided air-knife hand dryers such as the one described in UK Patent No. GB2428569. In this context, the discharge outlet may be used on one side only (and thus in combination with a conventional nozzle on the opposite side) or, preferably, on both sides.
The discharge outlet need not be a continuous slot. For example, it may instead be formed by a series of closely-spaced holes, as is known in the art. What is essential is that the discharge outlet is capable of discharging an air-knife in the sense meant in this specification: a fast-moving (>80 m/s) sheet or curtain of air.
Number | Date | Country | Kind |
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1707329.7 | May 2017 | GB | national |