RU2402972C2 - Device for drying - Google Patents

Abstract

FIELD: personal use articles.

SUBSTANCE: device for drying comprises a body, a chamber formed therein for placing drying objects there, a ventilator installed in the body to create a stream of air and two oppositely arranged slit-like openings communicated with the ventilator through a system of canals and made in the body with the ability to feed air stream in transverse direction along the length of the chamber. The channel system near the ventilator has a first cross-section which sizes are identical in all dimensions, and near the slotted-slit it has a slotted-slit cross-section, at that transition between these cross-sections is made gradual and smooth.

EFFECT: invention provides a reduction in drying time and increases its efficiency.

24 cl, 9 dwg

Description

The present invention relates to a drying device in which a narrow stream of air having a high speed and high pressure is used to dry a part of the human body. In particular, the invention relates to a hand dryer in which a stream of air is blown out through a slit-like opening formed in its body.

The use of air jets to dry hands is well known. Examples of hand dryers that release at least one stream of air for drying hands are described in GB 2249026 A, JP 2002034835 A and JP 2002306370 A. However, in practice it is very difficult to evenly distribute the air flow with a sufficiently high amount of movement for efficient and quick drying user’s hands. Known dryers do not solve this problem.

The objective of the present invention is to provide such a device for drying with blowing a stream of air through a slit-like opening, which is able to dry an object faster than known devices. Another object of the invention is to provide an improved hand dryer in which the drying efficiency is higher compared to known dryers.

The drying device according to the invention comprises a housing, a chamber formed inside it to accommodate the drying object, a fan mounted in the housing with the possibility of creating an air flow, and at least one slit-shaped opening in communication with the fan and made in the housing so as to direct the air flow into the transverse direction along the entire length of the chamber, while the slit-like hole is formed by opposing walls that come together at an angle of 10 ° to 20 °.

According to a preferred embodiment of the invention, the angle between the walls forming the slit-like opening is essentially 14 °. This angle allows you to significantly increase the amount of movement of the air flow discharged through such a slit-like opening in comparison with known devices. Thus, during each passage of the drying object through a stream of air discharged through slit-like openings, a greater amount of water is blown from it, which increases the efficiency of the dryer.

The drying device according to the invention comprises a housing, a chamber formed inside it to accommodate the drying object, a fan mounted in the housing with the possibility of creating an air flow, and two opposed slit-shaped openings communicated with the fan through a system of channels and made in the housing so as to direct the flow air in the transverse direction along the entire length of the chamber, while near the fan the duct system has a first cross section, the dimensions of which are the same in all directions, and near the slit-like openings, there is a slit-like cross section, and the transition between these cross sections is gradual and smooth.

Preferably, the total cross-sectional area of the duct system between the fan and a point immediately upstream of the slit-like openings is substantially constant. This minimizes losses in the duct system and increases the efficiency of the fan.

Embodiments of the invention will now be described with reference to the attached drawings.

Figure 1 shows a side view of a hand dryer according to the present invention;

figure 2 is a perspective view of a hand dryer, shown in figure 1;

figure 3 is a side view in section of a hand dryer, shown in figure 1;

in Fig.4 is a side view in section in an enlarged scale of the upper ends of the air channels, which are part of a hand dryer, shown in Fig.1;

figure 5 schematically shows a side view in section in an enlarged scale slit-shaped holes made in the front wall of the chamber of the hand dryer, shown in figure 1;

in Fig.6 schematically shows a side view in section in an enlarged scale slit-shaped holes made in the rear wall of the chamber of the hand dryer, shown in Fig.1;

Fig. 7 shows a perspective view of the channel system of the hand dryer of Fig. 1, separately from other elements of the device;

on figa is a top view of the entrance to the chamber of the hand dryer according to the second variant embodiment of the invention;

on fig.8b is a front view of a slit-like hole made in the rear wall of the chamber of the hand dryer shown in figa.

Figures 1 and 2 show a dryer 10 comprising an outer casing 12 including a front wall 14 and a rear wall 16, an upper panel 18 and side walls 20, 22. The rear wall 16 may be provided with fixing means (not shown) for fixing the dryer 10 to a wall or other structure. An electrical wiring (not shown) is provided on the back wall or elsewhere in the housing 12. A chamber 30 is formed in the upper part of the housing 12, as shown in FIGS. 1 and 2. The chamber 30 is open at the top and bounded by the upper portions of the front wall 14 and the front side of the upper panel 18. The gap between the upper portion of the front wall 14 and the front side of the upper panel 18 is an entrance 32 into the chamber, the length of which is sufficient for the user to be able to enter his hands through the chamber 30. The sides of the dryer 10 are configured so that the chamber 30 is open from the side of its side walls 20, 22.

The camera 30 is formed by the front 34 and rear 36 walls that define the camera 30 on the front and rear sides, respectively. At the very bottom of the chamber 30, a drainage hole 38 is made, which communicates with a reservoir (not shown) located in the lower part of the housing 12. The functions of the drainage hole and the reservoir will be disclosed below.

As shown in FIG. 3, a fan is installed inside the housing 12, driven by an electric motor also mounted inside the housing 12 (not shown). The electric motor is connected to the electric network and is regulated by the control unit 41. The fan inlet 42 is in communication with the air inlet 44 made in the housing 12. A filter 46 is located in the air channel connecting the air inlet 44 to the fan inlet 42 to prevent any penetration into the dryer - any contaminants that could be dangerous for the electric motor or fan 40. The output of the fan 40 is in communication with two air channels 50 and 52 located inside the building mustache 12. The front air channel 50 is located mainly between the front wall 14 of the housing 12 and the front wall 34 of the chamber 30, and the rear air channel 52 is located mainly between the rear wall 16 of the housing 12 and the rear wall 36 of the chamber 30.

The air channels 50 and 52 are configured to direct the air flow from the fan 40 to two opposed slit-like openings 60 and 62, made in the front and rear walls 34, 36 of the chamber 30, respectively. Slit-like openings 60 and 62 are located in the upper part of the chamber 30 in the immediate vicinity of the chamber entrance 32. Each of the slit-like openings 60 and 62 is configured to direct an air flow substantially across the inlet 32 of the chamber toward the opposite wall of the chamber 30. The slit-like openings 60 and 62 are vertically offset from one another and angled toward the bottom of the chamber thirty.

Figure 4 shows in more detail the upper ends of the air channels 50 and 52 and the slit-like openings 60 and 62. The walls 54a and 54b of the air channel 50 come together to form a slit-like opening 60, and the walls 56a and 54b of the air channel 52 come together to form a slit-like openings 62. In more detail, the upper ends of the air channels and slit-like openings are shown in FIGS. 5 and 6. FIG. 5 shows a slit-like opening 60 of width W1, and FIG. 6 shows a slit-like opening 62 of width W2. The width W1 of the slit-like opening 60 is less than the width W2 of the slit-like opening 62. Moreover, the width W1 is 0.3 mm, and W2 0.4 mm.

Each pair of walls 54a, 54b and 56a, 56b is positioned so that the respective walls of the pair come together to form a corresponding slit-like opening 60 and 62. Assuming that an imaginary axis 70 extends in the middle between the walls of each pair, as shown in FIG. 5 and 6, then each wall 54a, 54b and 56a, 56b is inclined to the axis 70 at an angle of about 7 °. Thus, the angle between each pair of walls 54a, 54b and 56a, 56b is about 14 °. It was found that this angle is optimal, although it can be from 10 ° to 20 °.

Sensors 64 are installed in the front and rear walls 34 and 36 of the chamber 30 immediately below the slit-like openings 60 and 62. These sensors 64 detect the presence of the user's hands inserted into the chamber 30 through the input 32 and provide a signal to the electric motor. As shown in FIGS. 1 and 3, the walls 54a, 54b, 56a, 56b of the channels 50 and 52 protrude slightly beyond the surface of the front and rear walls 34 and 36 of the chamber 30. The walls 54a, 54b, 56a, 56b of the channels 50 and protruding into the chamber 52 reduce the likelihood that the user's hands touch one or the other wall 34, 36 of the chamber, which could reduce the usability of the dryer. In addition, placing the sensors 64 directly below the inwardly protruding walls 54a, 54b, 56a, 56b of the channels 50 and 52 reduces the risk of contamination and malfunction.

As shown in FIG. 2, the chamber inlet 32 is shaped so that the leading edge 32a is substantially straight and extends laterally along the entire length of the dryer 10. At the same time, the shape of the chamber's trailing edge 32b has two curved sections 32, which basically repeat the shape of the back of two hands of a person when they are inserted from top to bottom in the chamber 30 through the inlet 32. The profile of the trailing edge 32b of the inlet 32 of the chamber is substantially symmetrical about the center line of the dryer 10. The shape and dimensions of the front and rear edges 32a, 32b of the entrance 32 to the camera you wound such that the user's hands when introduced into chamber 30 through inlet 32 away from any point on the user's hands to the nearest slot-like openings were substantially the same.

The air ducts 50 and 52 form part of the duct system 90, which is located between the fan 40 and the slit-shaped openings 60 and 62. The duct system 90 is shown in FIG. The duct system 90 includes a spiral outlet 92 adjacent to the fan 40, into which air flows from the fan 40. The spiral outlet 92 communicates with an initial diffuser 94 of generally square cross section, although the cross section may be substantially circular. The inventive concept is that the cross section of the diffuser 94 is essentially the same in both coordinates. Immediately downstream of the diffuser 94 is a Y-shaped connector 96, downstream of which air ducts 50 and 52 are located. As described above, the air ducts 50 and 52 extend toward the upper end of the housing 12, with the front air duct 50 located between the front wall 14 of the housing 12 and the front wall 34 of the chamber 30, and the rear channel 52 between the rear wall 16 of the housing 12 and the rear wall 36 of the chamber 30. Air channels 50 and 52 are in communication with slot-like openings 60 and 62, respectively, at the upper end of the chamber 30 .

The channel system 90 is designed so that its cross section smoothly and gradually transforms from the square (or round) cross-sectional shape of the diffuser 94 to the slit-like shape of the hole. Directly downstream of the diffuser 94, the channel system is divided into air channels 50 and 52, and at their end located upstream, the cross-section still remains substantially square in shape, i.e. the width and height of the cross section are essentially the same. However, this cross section with the distance from the diffuser 94 gradually changes so that the width of each of the channels 50 and 52 increases, while the height of the channels decreases. These changes are carried out smoothly and gradually to minimize friction losses.

At some point 98 of the channel, located directly upstream from the slit-like openings 60 and 62, the cross-sectional area of each of the channels 50 and 52 starts to decrease so that the flow rate of air passing in the direction of the slit-like openings 60, 62 increases sharply. However, between the diffuser 94 and point 98 in each air channel 50 and 52, the total cross-sectional area of the channel system (i.e., the total cross-sectional area of the air channels 50 and 52) remains essentially constant.

The hand dryer 10 described above operates as follows.

When the user's hands are initially introduced into the chamber 30 through the input 32, the sensors 64 detect the presence of the user's hands in it and give a signal to the electric motor to drive the fan 40. Accordingly, the fan 40 is driven and the air is sucked into the dryer 10 through the air inlet 44 s a flow rate of about 20-40 l / s, preferably at least 25 to 27 l / s, more preferably from 31 to 35 l / s. Air passes through the filter 46 and enters the fan 40 through the inlet 42. The air stream leaving the fan is divided into two separate streams, one of which passes through the front air channel 50 to the slit-like opening 60, and the other through the rear air channel 52 to the slit-like hole 62.

The air stream leaves the slit-like openings 60 and 62 in the form of very thin flat jets of air having high speed and pressure. At the exit from the slit-like openings 60 and 62, the air pressure is at least 15 kPa, and preferably from about 20 to 23 kPa. In addition, the speed of the airflow leaving the slit-like openings 60 and 62 is not less than 80 m / s, preferably not less than 100-150 m / s, and more preferably about 180 m / s. Since the characteristic size of the slit-like opening 62 located at the end of the rear channel 52 exceeds the size of the slit-like hole 60 located at the end of the front channel 50, a larger volume of air flows out of the channel 52 than from the channel 50. Thus, for drying the back (back to the palms) more air is supplied to the surface of the hands, which is advantageous.

Two thin flat jets of air having high speed and pressure are directed to the surfaces of the user's hands, which, when using the dryer, are completely inserted into the chamber 30, and then removed from it through the inlet 32. When the user's hands go inside the chamber 30 and are removed from it, thin flat jets of air blow water off the user's hands. Drying is carried out reliably and efficiently due to the large amount of movement of air blown out from the slit-like openings 60 and 62.

Each thin plane stream of air is directed towards the wall of the chamber 30, which is located at a distance from the slit-like opening through which it exits. Since the slit-like openings 60 and 62 are tilted towards the lowest point of the chamber 30, the air flows exiting from the openings are directed into the chamber 30. This reduces the likelihood of turbulent movement of air sensed by the user, for example, by a person outside the dryer body.

It is believed that in order to dry the hands to a satisfactory condition, only a small number of “passes” into the dryer described above should be made. The term "passage" here means a single entry of hands into the camera and their subsequent removal from the camera at a speed acceptable to the average user. The amount of movement of the air flow is sufficient to remove most of the water located on the surface of the user's hands during a single pass into the dryer after washing the hands.

Water removed by the air flow is collected inside the chamber 30. Each of the air jets will quickly lose its momentum immediately after passing the user's hands, and water droplets will fall to the bottom of the chamber 30 under the action of gravity, while the air will exit the chamber 30 through the entrance 32 or through the open sides of the chamber 30. Water is collected using the drainage hole 38 and drains into a tank (not shown), where it accumulates for subsequent removal. If desired, this tank can be emptied manually. Alternatively, the dryer 10 may be provided with some means of removing water, for example, a heater to evaporate the collected water into the atmosphere. It should be noted that the means by which the accumulated water is removed are not included in the scope of the present invention.

According to an alternative embodiment of the invention, the slit-like openings 60 and 62 can be arranged so that thin planar air jets emerging from these openings are directed essentially along parallel planes. This minimizes the turbulent flow inside the chamber 30 when using the device.

According to another alternative embodiment of the invention shown in FIGS. 8a and 8b, the slit-shaped openings have a variable width along the length L of the chamber of the hand dryer. On figa shows a top view of the entrance 32 to the chamber having a length L. Dash-dotted lines indicate the hands of the user when they are normally placed in the chamber 30 between the front and rear edges 32a and 32b. The arrows 80 in FIG. 8a show the direction of the air flow exiting from the slit-like openings 60 and 62 made at the edges 32a, 32b of the inlet 32 into the chamber. In this embodiment, the curved portions 33 of the trailing edge 32b are symmetrical about the center line AA of the camera entrance 32, and the distance between the center of the trailing edge 32b and the leading edge 32a, measured along the center line, is less than anywhere remote from this center line. The distance d between the leading and trailing edges 32a and 32b, measured along the center line, is minimal. In the middle part of each of these curved sections, the distance between the leading and trailing edges is maximum and equal to D. Fig. 8b shows the profile of a slit-like hole made in the rear wall of the chamber.

Preferably, the height of the slit-like opening formed in the rear wall gradually changes, increasing in the direction of the midpoint of the inlet opening 32 of the chamber located on the center line AA.

In this alternative embodiment of the invention, it is preferable that the change in the width of the hole is achieved by changing the distance from the upper wall of the slit-like hole to the lower wall with the formation of a curved profile, preferably smoothly changing. More preferably, this curve is symmetrical about the center line AA of the entrance 32 to the chamber. Preferably, the opening has a maximum width R of 0.7 mm along the center line AA.

Preferably, the width r is substantially constant in zones F and G and varies in zone E (FIGS. 8a and 8b), comprising at least half the total length L of the entrance to the chamber, most preferably its central half. Preferably, the r value is 0.4 mm.

The width of the slit-like opening 62 in zone E is greater than in the zones F and G. The increase in the size of the slit-like opening 62 provides a larger amount of air 80 from the back channel 52 for drying the back surfaces of the user's hands in the areas of the thumb and index finger, which is advantageous. The increased amount of air and the amount of air flow in zone E are sufficient to remove most of the water from the back of the hands after washing them in one pass of the hands into the dryer.

The present invention is not limited to the structural embodiment disclosed above. Specialists understand the modifications and design options that do not change the scope of the invention. For example, the shape of the camera 30 and its entrance 32 can be changed without going beyond the essence of the present invention.

Claims (24)

1. A drying device, comprising a housing, a chamber formed therein for accommodating a drying object, a fan installed in the housing for creating an air flow and two opposed slit-shaped openings in communication with the fan through a duct system and configured in the housing to supply air flow in the transverse direction along the entire length of the chamber, while near the fan the channel system has a first cross-section, the dimensions of which are the same in all measurements, and near the slit-like openings - evidnoe cross-section, the transition between the said cross-sections made gradual and smooth. 2. The device according to claim 1, in which the total cross-sectional area of the channel system is essentially constant between the fan and the point located directly upstream from the slit-like openings. 3. The device according to claim 1, in which the channel system downstream of the fan is divided into two separate channels for air flow. 4. The device according to claim 2, in which downstream of the fan, the channel system is divided into two separate channels for air flow. 5. The device according to claim 1, in which the width of the slit-like holes or the width of each of the slit-like holes does not exceed 0.5 mm 6. The device according to claim 2, in which the width of the slit-like holes or the width of each of the slit-like holes does not exceed 0.5 mm 7. The device according to claim 3, in which the width of the slit-like openings or the width of each of the slit-like openings does not exceed 0.5 mm. 8. The device according to claim 4, in which the width of the slit-like holes or the width of each of the slit-like holes does not exceed 0.5 mm 9. The device according to any one of claims 1 to 8, in which the fan is configured to create an air stream exiting through the slit-like opening or through each of the slit-like openings at a speed of more than 80 m / s. 10. The device according to claim 9, in which the fan is configured to create an air stream exiting through the slit-like opening at a speed of more than 100 m / s. 11. The device according to claim 1, in which the fan is configured to create an air stream exiting through the slit-like opening or through each of the slit-like openings at a pressure of more than 8 kPa. 12. The device according to claim 2, in which the fan is configured to create an air stream exiting through the slit-like opening or through each of the slit-like openings at a pressure of more than 8 kPa. 13. The device according to claim 3, in which the fan is configured to create an air stream exiting through the slit-like opening or through each of the slit-like openings at a pressure of more than 8 kPa. 14. The device according to claim 4, in which the fan is configured to create an air stream exiting through the slit-like opening or through each of the slit-like openings at a pressure of more than 8 kPa. 15. The device according to claim 5, in which the fan is configured to create an air stream exiting through the slit-like opening or through each of the slit-like openings at a pressure of more than 8 kPa. 16. The device according to claim 6, in which the fan is configured to create an air stream exiting through the slit-like opening or through each of the slit-like openings at a pressure of more than 8 kPa. 17. The device according to claim 7, in which the fan is configured to create an air stream exiting through the slit-like opening or through each of the slit-like openings at a pressure of more than 8 kPa. 18. The device of claim 8, in which the fan is configured to create an air stream exiting through the slit-like opening or through each of the slit-like openings at a pressure of more than 8 kPa. 19. The device according to claim 9, in which the fan is configured to create an air stream exiting through the slit-like opening or through each of the slit-like openings at a pressure of more than 8 kPa. 20. The device according to any one of paragraphs.11-18, in which the fan is configured to create an air stream exiting through the slit-like opening or through each of the slit-like openings at a pressure of more than 12 kPa. 21. The device according to claim 19, in which the fan is configured to create an air stream exiting through the slit-like opening or through each of the slit-like openings at a pressure of more than 12 kPa. 22. The device according to any one of claims 1 to 8, which is a hand dryer. 23. The device according to claim 9, which is a hand dryer. 24. The device according to claim 11, which is a hand dryer.

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