JP7485468B2 - Handheld vacuum cleaners and vacuum cleaners including handheld vacuum cleaners - Google Patents

Description

The present disclosure relates to a handheld vacuum cleaner. The present disclosure further relates to a vacuum cleaner including a holder for the handheld vacuum cleaner.

A vacuum cleaner is a device that creates a partial vacuum using an air pump, and often a centrifugal fan, to suck up dust and dirt from surfaces such as floors, carpets, etc. Various types of vacuum cleaners are known, including upright/stick vacuum cleaners and handheld vacuum cleaners. These types of vacuum cleaners generally have an elongated body with a nozzle at one end and a handle at the other end. A housing having a fan and a filter may be attached to the elongated body and may extend generally parallel to the body. Such a housing may contain a fan and motor, a dust collector, a filter, and other necessary components.

Handheld and upright/stick vacuum cleaners allow users to remove dust and debris relatively easily and efficiently, and can be operated with a single hand grip. Handheld vacuum cleaners are becoming more popular, in part because they are easier to use and require less space when not in use.

In general, there are several problems and requirements when designing a vacuum cleaner. One example is the cleaning efficiency. A user of a vacuum cleaner expects a high cleaning efficiency in order to obtain good cleaning results without much effort. Another problem is the noise level during operation. The noise generated by a vacuum cleaner is usually unpleasant for the user and for people in the vicinity of the vacuum cleaner. Yet another problem is to provide an easy-to-use vacuum cleaner that can be used in a simple and intuitive way. A further problem is the energy consumption of the vacuum cleaner. These problems and requirements are usually contradictory problems and requirements: a simple way to improve the cleaning efficiency of a vacuum cleaner is to improve the power of the fan. However, this results in an increase in the noise generated by the vacuum cleaner and the energy consumption of the vacuum cleaner.

Furthermore, in general, in today's consumer market, it is an advantage if products such as vacuum cleaners and vacuum cleaner components have conditions and/or characteristics that make them suitable for manufacture and assembly in a cost-effective manner.

The object of the present invention is to overcome or at least mitigate at least some of the above problems and disadvantages.

According to a first aspect of the present invention, the object is achieved by a handheld vacuum cleaner including an air inlet, an air outlet, and a fan configured to rotate about a fan axis to create an air flow through an air flow path extending from the air inlet to the air outlet. The vacuum cleaner further includes a separating device disposed in the air flow path. The separating device is configured to separate dust from air flowing through the air flow path. The air flow path includes a sound reducing section extending from the fan in an extension direction, the angle between the extension direction and the fan axis being less than 45 degrees.

The vacuum cleaner includes a sound-reducing section extending from the fan in an extension direction, and the angle between the extension direction and the fan axis is less than 45 degrees, so that noise generated by the fan is efficiently attenuated. This provides a vacuum cleaner that has conditions under which low noise is generated during operation and conditions under which the output level of the fan can be increased while still generating low noise.

Furthermore, since the angle between the extension direction of the sound reduction section and the fan axis is less than 45 degrees, the flow resistance of the air flowing through the sound reduction section can be reduced while efficiently attenuating the noise generated by the fan. Furthermore, since the angle between the extension direction of the sound reduction section and the fan axis is less than 45 degrees, the conditions are provided for a vacuum cleaner having a balanced weight distribution, which facilitates use of the vacuum cleaner as further described herein.

There is therefore provided a handheld vacuum cleaner which overcomes or at least mitigates at least some of the problems and shortcomings described above. As a result, the above objectives are achieved.

Optionally, the length of the sound-reducing section is greater than 5 cm. This provides a vacuum cleaner with conditions for low noise generation during operation and for increasing the fan power level while still generating low noise. Furthermore, the flow resistance of the air flowing through the sound-reducing section can be reduced while efficiently attenuating the noise generated by the vacuum cleaner. Furthermore, conditions for a balanced vacuum cleaner are provided.

Optionally, the length of the sound attenuation section is at least 20% or at least 30% of the distance between the air inlet and the air outlet of the vacuum cleaner. This provides a vacuum cleaner with conditions for low noise generation during operation and conditions for increasing the fan power level while still generating low noise. Furthermore, the flow resistance of the air flowing through the sound attenuation section can be reduced while efficiently attenuating the noise generated by the vacuum cleaner. Furthermore, conditions for a balanced vacuum cleaner are provided.

Optionally, the sound attenuation section includes one or more blades protruding into the sound attenuation section to counteract turbulent airflow within the sound attenuation section, thereby significantly reducing flow resistance of air flowing through the sound attenuation section. As a result, the energy consumption of the vacuum cleaner may be reduced while allowing for higher fan power levels. Furthermore, the sound generated by the vacuum cleaner may be further reduced by the one or more blades protruding into the sound attenuation section, since the turbulence of the air in the sound attenuation section is significantly reduced.

Optionally, each blade of the one or more blades protrudes in a direction parallel to the fan axis, thereby effectively counteracting vortex airflow in the sound attenuation section. Furthermore, the one or more blades have conditions and characteristics that make them suitable for manufacturing in a cost-effective manner.

Optionally, the sound attenuation section includes a first portion and a second portion downstream of the first portion, the second portion having a cross-sectional area smaller than the cross-sectional area of the first portion, thereby more efficiently attenuating noise generated by the vacuum cleaner.

Optionally, the cross-sectional area of the second portion is at least 30% smaller than the cross-sectional area of the first portion, thereby ensuring more efficient attenuation of noise generated by the vacuum cleaner.

Optionally, the one or more blades are positioned upstream of the second portion, whereby vortex flow of air in the second portion of the sound attenuation section is effectively counteracted. As a result, flow resistance of air flowing through the second portion of the sound attenuation section is significantly reduced. As a result, energy consumption of the vacuum cleaner can be reduced while allowing higher power levels of the fan. A further result of these features is that the sound generated by the vacuum cleaner is further reduced.

Optionally, the sound-reducing section includes a constriction between the first and second sections, thereby further efficiently attenuating noise generated by the fan.

Optionally, the one or more blades are positioned within the throttling section or upstream of the throttling section, thereby effectively counteracting vortex flow of air in the throttling section and the second part downstream of the throttling section of the sound attenuation section. As a result, the flow resistance of the air flowing through the throttling section and the second part downstream of the throttling section of the sound attenuation section is significantly reduced. As a result, the energy consumption of the vacuum cleaner can be reduced while allowing higher power levels of the fan. A further result of these features is that the sound generated by the vacuum cleaner is further reduced.

Optionally, the sound attenuation section includes a third section downstream of the second section, the third section having a cross-sectional area greater than the cross-sectional area of the second section, thereby allowing for more efficient attenuation of the noise generated by the fan while at the same time providing less flow resistance to the air flowing through the sound attenuation section. Further, the conditions for a balanced vacuum cleaner are provided.

Optionally, the cross-sectional area of the third portion is at least 30% larger than the cross-sectional area of the second portion, thereby ensuring that the noise generated by the fan is attenuated more efficiently. At the same time, it is ensured that the air flow resistance through the sound-reducing portion can be made smaller. Furthermore, the conditions for a balanced vacuum cleaner are provided, as will be further described herein.

Optionally, the length of the second portion measured in a direction coincident with the fan axis is greater than 3 cm or greater than 5 cm, thereby ensuring that the noise generated by the fan is efficiently attenuated while allowing for less flow resistance of the air flowing through the sound attenuation section. Furthermore, the conditions for a balanced vacuum cleaner are provided, as further described herein.

Optionally, the outer surface of the second portion forms a handle for a user of the handheld vacuum cleaner. Thereby, a vacuum cleaner is provided in which part of the sound reducing portion forms a handle for a user of the handheld vacuum cleaner. As a result, a vacuum cleaner is provided that has the requirements for low noise generated during operation, while at the same time has the requirements and characteristics suitable for manufacturing and assembly in a cost-effective manner. Furthermore, as further described herein, a vacuum cleaner is provided that has the requirements for a compact and balanced design.

Optionally, the vacuum cleaner includes a motor configured to rotate the fan about a fan axis, the motor being arranged in a first part of the sound attenuation section. Thereby, the motor is efficiently cooled by air flowing through the sound attenuation section during operation of the vacuum cleaner. Thus, a vacuum cleaner is provided having conditions for low noise generation during operation, and at the same time suitable conditions and characteristics for manufacturing and assembly in a cost-effective manner. Furthermore, a vacuum cleaner is provided having conditions for a compact and well-balanced design.

Optionally, the vacuum cleaner includes a battery configured to provide electricity to the motor, the battery being arranged in a third part of the sound attenuation section. Thereby, the battery is efficiently cooled by air flowing through the sound attenuation section during operation of the vacuum cleaner. Thus, an easy-to-use vacuum cleaner is provided having the conditions for low noise generation during operation, and at the same time having the conditions and characteristics suitable for manufacturing and assembly in a cost-effective manner. Furthermore, a vacuum cleaner is provided having the conditions for a compact and well-balanced design.

Optionally, the third portion includes an air outlet, thereby providing the vacuum cleaner with low noise operating conditions.

Optionally, the air outlet includes a shield, which more efficiently attenuates noise generated by the vacuum cleaner while allowing less flow resistance for air to flow through the sound attenuation section.

Optionally, the shield is configured to direct air in a direction that is angled relative to the fan axis, thereby more efficiently attenuating noise generated by the vacuum cleaner while allowing less flow resistance for the air flowing through the sound attenuation section. Additionally, conditions are provided for directing the air flowing through the air outlet in a direction that is less disruptive to a user of the vacuum cleaner.

Optionally, the shield is configured to direct air in a generally radial direction relative to the fan axis, thereby more efficiently attenuating noise generated by the vacuum cleaner while allowing less flow resistance for the air flowing through the sound attenuation section. Furthermore, conditions are provided for directing the air flowing through the air outlet in a direction that is less disruptive to a user of the vacuum cleaner.

Optionally, the vacuum cleaner comprises at least one sound absorbing unit provided in a sound absorbing material, preferably a breathable sound absorbing material or a sound absorbing surface coating, arranged in the sound attenuation section, thereby more efficiently attenuating the noise generated by the vacuum cleaner while allowing for less flow resistance of the air flowing through the sound attenuation section.

Optionally, the vacuum cleaner comprises at least one sound absorbing unit provided in a sound absorbing material, preferably a breathable sound absorbing material or a sound absorbing surface coating, disposed in the second portion of the sound attenuation section, thereby more efficiently attenuating the noise generated by the vacuum cleaner while allowing for less flow resistance of the air flowing through the sound attenuation section.

Optionally, the vacuum cleaner includes at least one sound absorbing unit provided in a sound absorbing material, preferably a breathable sound absorbing material or a sound absorbing surface coating, disposed in a third portion of the sound attenuation section, thereby more efficiently attenuating noise generated by the vacuum cleaner while allowing for less flow resistance of air flowing through the sound attenuation section.

Optionally, the angle between the extension direction of the sound reduction section and the fan axis is less than 25 degrees, or less than 10 degrees, or about 0 degrees.

According to a second aspect of the present invention, the object is achieved by a vacuum cleaner comprising a shaft portion and a removable handheld vacuum cleaner according to some embodiments of the present disclosure, the shaft portion comprising a handle, two tube portions, a floor nozzle and a holder for the handheld vacuum cleaner, the holder being arranged between the two tube portions.

The vacuum cleaner includes a removable handheld vacuum cleaner according to some embodiments, thereby providing a vacuum cleaner having conditions for generating low noise during operation and conditions for increasing the output level of the fan while still generating low noise. Furthermore, the sound-reducing section of the handheld vacuum cleaner extends from the fan in an extension direction, and the angle between the extension direction and the fan axis is less than 45 degrees, thereby efficiently attenuating the noise generated by the fan of the handheld vacuum cleaner while reducing the flow resistance of the air flowing through the sound-reducing section.

There is therefore provided a vacuum cleaner which overcomes or at least mitigates at least some of the problems and shortcomings described above. As a result, the above objectives are achieved.

Optionally, the air outlet of the handheld vacuum cleaner is positioned between the two tube sections when the handheld vacuum cleaner is attached to the holder, thereby providing conditions for directing the air flowing through the air outlet in a direction that is less disruptive to a user of the vacuum cleaner, while allowing for less flow resistance of the air flowing through the air outlet of the handheld vacuum cleaner.

Further features and advantages of the present invention will become apparent upon review of the appended claims and the detailed description that follows.

Various aspects of the present invention, including its particular features and advantages, will be readily understood from the exemplary embodiments discussed in the following detailed description and the accompanying drawings.

1 illustrates a first cross-section of a handheld vacuum cleaner according to some embodiments. 2 shows a second cross-section of the vacuum cleaner shown in FIG. 1 with some components removed; 3 shows a third cross-section of the vacuum cleaner shown in figures 1 and 2; 1 shows a top view of a vacuum cleaner according to the embodiment shown in FIGS. 1 to 3; 4 shows a vacuum cleaner according to some further embodiments of the present disclosure.

Aspects of the invention will now be described in more detail. Like numbers refer to like elements throughout. Well-known functions or constructions are not necessarily described in detail for brevity and/or clarity.

1 shows a first cross-section of a handheld vacuum cleaner 1 according to some embodiments. For brevity and clarity, the handheld vacuum cleaner 1 is referred to as the "vacuum cleaner" in some places in this specification. The vacuum cleaner 1 includes an air inlet 3, an air outlet 5, and a fan 7. The fan 7 is driven by an electric motor 27. The electric motor 27 is configured to rotate the fan 7 about a fan axis ax. The cross-section of FIG. 1 is made through a plane that includes the fan axis ax. The fan 7 is configured to rotate about the fan axis ax to create an air flow through an air flow path 9. The air flow path 9 extends from the air inlet 3 to the air outlet 5. The electric motor 27 may include ball bearings and may be rubber suspended relative to the housing 6 of the vacuum cleaner 1. In this way, less noise is generated during operation of the vacuum cleaner 1.

The vacuum cleaner 1 further includes a separating device 11 disposed in the air flow path 9. The separating device 11 is configured to separate dust from the air flowing through the air flow path 9. The separating device 11 may include a dust collection bag, a filter, a cyclonic separating device, etc.

The air flow path 9 includes a sound-reducing section 13 arranged downstream of the fan 7. As can be seen from FIG. 1, the sound-reducing section 13 extends from the fan 7 in an extension direction d. According to the embodiment shown, the sound-reducing section 13 is approximately concentric with the fan axis ax. According to a further embodiment, the angle a1 between the extension direction d of the sound-reducing section 13 and the fan axis ax may be less than 45 degrees, or less than 25 degrees, or less than 10 degrees, or about 0 degrees. Due to these characteristics, as will be further described herein, the noise generated by the fan 7 and the electric motor 27 is efficiently attenuated. Furthermore, as will be further described herein, the conditions are provided for an easy-to-use vacuum cleaner 1 with a balanced weight distribution. The characteristic that the sound-reducing section 13 is approximately concentric with the fan axis ax may include that the distance between the fan axis ax and the sound-reducing section 13 is less than 5 cm along the extent of the sound-reducing section 13, as referred to herein. Furthermore, the characteristic that the sound reduction section 13 is substantially concentric with the fan axis ax may include that the angle between the fan axis ax and the extent of the sound reduction section 13 is less than 10 degrees.

According to the embodiment shown, the length L1 of the sound-reducing section 13 is about 53.5% of the distance L2 between the air inlet 3 and the air outlet 5 of the vacuum cleaner 1. According to further embodiments, the length L1 of the sound-reducing section 13 may be at least 10%, at least 20% or at least 30% of the distance L2 between the air inlet 3 and the air outlet 5 of the vacuum cleaner 1. According to some embodiments, the length L1 of the sound-reducing section 13 is greater than 5 cm or greater than 7 cm. Thereby, the noise generated by the fan 7 and the electric motor 27 can be efficiently attenuated while allowing a smaller flow resistance of the air flowing through the sound-reducing section 13. Furthermore, the conditions are provided for an easy-to-use vacuum cleaner 1 with a balanced weight distribution, as will be further explained herein.

The sound-reducing section 13 comprises a first portion 21 and a second portion 22 downstream of the first portion 21. Furthermore, the sound-reducing section 13 comprises a constriction portion 21' between the first portion 21 and the second portion 22. Furthermore, the sound-reducing section 13 comprises a third portion 23 downstream of the second portion 22. According to the embodiment shown, the sound-reducing section 13 and its portions 21, 21', 22, 23 are formed by the inner surface of the housing 6 of the vacuum cleaner 1. The housing 6 may be provided in a polymeric material.

As can be seen from Fig. 1, the cross-sectional area A2 of the second portion 22 is smaller than the cross-sectional area A1 of the first portion 21. According to the embodiment shown, the cross-sectional area A1 of the first portion 21 is about 9045 ^mm2 and the cross-sectional area A2 of the second portion 22 is about 910 ^mm2 . According to further embodiments, the cross-sectional area A1 of the first portion 21 may be 8000-12000 ^mm2 and the cross-sectional area A2 of the second portion 22 may be 700-1500 ^mm2 . According to some embodiments, the cross-sectional area A2 of the second portion 22 may be at least 30% smaller than the cross-sectional area A1 of the first portion 21.

1, the cross-sectional area A3 of the third portion 23 is larger than the cross-sectional area A2 of the second portion 22. According to the embodiment shown, the cross-sectional area A3 of the third portion 23 is about 6901 mm ^2. According to further embodiments, the cross-sectional area A3 of the third portion 23 may be 4500-9000 mm ^2. According to some embodiments, the cross-sectional area A3 of the third portion 23 may be at least 30% larger than the cross-sectional area A2 of the second portion 22.

According to the embodiment shown, the motor 27 is arranged in the first part 21 of the sound-reducing section 13. Furthermore, the vacuum cleaner includes a battery 29 configured to provide electricity to the motor. As can be seen in FIG. 1, the battery 29 is arranged in the third part 23 of the sound-reducing section 13. The vacuum cleaner 1 includes an electrical wire 28 for transmitting electricity between the battery 29 and the motor 27. The electrical wire 28 extends through the second part 22 of the sound-reducing section 13.

Figure 2 shows a second cross-section of the vacuum cleaner 1 shown in Figure 1, with some components removed to provide a better view of the sound-reducing section 13 and its features. As shown in Figure 2, the sound-reducing section 13 includes a set of blades 15 that protrude into the sound-reducing section 13. The blades 15 are configured to counteract the vortex flow of air in the sound-reducing section 13. According to the embodiment shown, the blades 15 of the set of blades 15 are arranged upstream of the second section 22 and upstream of the throttling section 21'. According to a further embodiment, the blades 15 of the set of blades 15 may be arranged in or upstream of the throttling section 21'. In this way, the vortex flow of air in the second section 22 of the sound-reducing section 13 is efficiently counteracted.

Figure 3 shows a third cross section of the vacuum cleaner 1 shown in Figures 1 and 2. The third cross section of Figure 3 is made in a plane perpendicular to the fan axis ax, in the first part 21 of the sound-reducing section 13. As can be best seen in Figure 3, each blade 15 of the set of blades 15 protrudes into the sound-reducing section 13 in a direction parallel to the fan axis ax. In this way, vortex flows of air are efficiently counteracted when air flows from the first part 21 through the throttling section 21' to the second part 22. Furthermore, since each blade 15 of the set of blades 15 protrudes into the sound-reducing section 13 in a direction parallel to the fan axis ax, the vacuum cleaner 1 is provided with conditions and characteristics suitable for manufacturing in a cost-effective manner.

Figure 4 shows a top view of the vacuum cleaner 1 according to the embodiment shown in Figures 1 to 3. As seen in Figure 4, the vacuum cleaner 1 includes a start button 32 and a battery level indicator 34. In the following, Figures 1 to 4 are simultaneously referred to. As shown in Figure 4 as well as in Figures 1 and 2, the outer surface 25 of the second part 22 of the sound-reducing part 13 forms a handle for a user of the handheld vacuum cleaner 1. According to the embodiment shown, the length L3 of the second part 22 measured in a direction d coinciding with the fan axis ax is sufficient to accommodate at least four fingers of the user's hand. According to some embodiments, the length L3 of the second part 22 measured in a direction coinciding with the fan axis is greater than 3 cm or greater than 5 cm.

The outer surface 25 of the second portion 22 forms a handle for a user of the handheld vacuum cleaner 1, and the battery 29 is located in the third portion 23 of the sound-reducing section 13 and the motor 27 is located in the first portion 21 of the sound-reducing section 13, thereby providing the vacuum cleaner 1 with a balanced weight distribution, thereby facilitating use of the vacuum cleaner 1.

1, 2 and 3, the third portion 23 includes the air outlet 5. Furthermore, according to the embodiment shown, the air outlet 5 includes a shield 31. The shield 31 is configured to direct the air flowing through the air outlet 5 in a direction d2 that is angled with respect to the fan axis ax, as shown in Figs. 1 and 2. According to the embodiment shown, the shield 31 is configured to direct the air in a substantially radial direction d2 with respect to the fan axis ax. Due to these features, the noise generated by the vacuum cleaner 1 is further attenuated and the air flowing through the air outlet 5 causes less adverse effects to a user of the vacuum cleaner 1. Furthermore, as shown in Fig. 4, according to the embodiment shown, the vacuum cleaner 1 includes a portion 36 that prevents the air from flowing towards the upper side of the vacuum cleaner 1, the upper side of the vacuum cleaner 1 being the side that faces the forearm of the user when the user grips the handle of the vacuum cleaner 1 in the intended gripping direction. Furthermore, the top surface of the vacuum cleaner 1 includes a start button 32 and a battery level indicator 34. Because of portion 36 preventing air from flowing toward the upper side of vacuum cleaner 1, air flowing through air outlet 5 further reduces adverse effects on a user of vacuum cleaner 1.

2, the vacuum cleaner 1 may include at least one sound absorbing unit 33, 35 provided in a sound absorbing material arranged in the sound attenuation section 13. According to the illustrated embodiment, the vacuum cleaner 1 includes a sound absorbing unit 33 provided in a sound absorbing material arranged in the second part 22 of the sound attenuation section 13 and a sound absorbing unit 35 provided in a sound absorbing material arranged in the third part 23 of the sound attenuation section 13. The sound absorbing units 33, 35 may each be provided in a breathable material such as a foam material. The sound absorbing units 33, 35 may be an internal surface coating of any of the first to third parts 21, 22, 23 of the sound attenuation section 13. Due to the sound absorbing units 33, 35, the noise generated by the vacuum cleaner 1 is attenuated more efficiently.

Figure 5 shows a vacuum cleaner 2 according to some embodiments of the present disclosure. The vacuum cleaner 2 shown in Figure 5 is a stick vacuum cleaner 2. The vacuum cleaner 2 includes a shaft portion 41 and a removable handheld vacuum cleaner 1 according to the embodiment shown in Figures 1-4. The shaft portion 41 includes a handle 43, two tube portions 45, a floor nozzle 47, and a holder 49 for the handheld vacuum cleaner 1, which is disposed between the two tube portions 45. In Figure 5, the handheld vacuum cleaner 1 is attached to the holder 49 of the vacuum cleaner 2. When in this position, the air inlet of the handheld vacuum cleaner 1 is fluidly connected to the floor nozzle 47.

As seen in FIG. 5, when the handheld vacuum cleaner 1 is attached to the holder 49, the air outlet 5 of the handheld vacuum cleaner 1 is positioned between the two tube sections 45. In this way, the air flowing through the air outlet 5 of the handheld vacuum cleaner 1 has less adverse effect on the user of the vacuum cleaner 2, while allowing for a smaller flow resistance of the air flowing through the air outlet 5.

The above is a description of various exemplary embodiments, and it should be understood that the present invention is defined solely by the scope of the appended claims. Those skilled in the art will appreciate that the exemplary embodiments may be modified and that features of each of the exemplary embodiments may be combined to create embodiments other than those described herein without departing from the scope of the present invention as defined in the appended claims.

As used herein, the terms "comprising" or "including" are open-ended and include one or more described features, elements, steps, components, or functions, but do not exclude the presence or addition of one or more other features, elements, steps, components, functions, or groups thereof.

Claims (20)

An air inlet;
An air outlet;
a fan configured to rotate about a fan axis to create an air flow through an air flow path extending from the air inlet to the air outlet;
a separating device disposed in the air flow path, the separating device configured to separate dust from air flowing through the air flow path,
The air flow path includes a sound-reducing section extending from the fan in an extension direction, and an angle between the extension direction and the fan axis is less than 45 degrees;
The sound-reducing section includes a first portion, a second portion downstream of the first portion , and a third portion downstream of the second portion , a cross-sectional area of an outer surface of the second portion being smaller than a cross-sectional area of the outer surface of the first portion, and a cross-sectional area of an outer surface of the third portion being larger than the cross-sectional area of the outer surface of the second portion;
an outer surface of the second portion forms a handle for a user of the handheld vacuum cleaner;
Handheld vacuum cleaner. 2. A handheld vacuum cleaner according to claim 1 , wherein the length of the sound reducing section is greater than 5 cm. 3. A handheld vacuum cleaner as claimed in claim 1 or 2 , wherein the length of the sound reducing section is at least 20% or at least 30% of the distance between the air inlet and the air outlet of the handheld vacuum cleaner. 4. A handheld vacuum cleaner according to any one of claims 1 to 3 , wherein the cross-sectional area of the outer surface of the second portion is at least 30% smaller than the cross-sectional area of the outer surface of the first portion. An air inlet;
An air outlet;
a fan configured to rotate about a fan axis to create an air flow through an air flow path extending from the air inlet to the air outlet;
a separation device disposed in the air flow path, the separation device configured to separate dust from air flowing through the air flow path;
A handheld vacuum cleaner comprising:
The air flow path includes a sound-reducing section extending from the fan in an extension direction, and an angle between the extension direction and the fan axis is less than 45 degrees;
The sound reducing section includes a first portion and a second portion downstream of the first portion, and a cross-sectional area of an outer surface of the second portion is smaller than a cross-sectional area of an outer surface of the first portion.
The sound-reducing section includes a plurality of blades protruding radially into the sound-reducing section to cancel vortex flows of air within the sound-reducing section;
a constriction portion between the first portion and the second portion,
The plurality of blades are disposed at least in the first portion upstream of the constriction. 6. The handheld vacuum cleaner of claim 5 , wherein each blade of the plurality of blades protrudes in a direction parallel to the fan axis. A handheld vacuum cleaner as claimed in claim 5 or 6 , wherein the plurality of blades are positioned upstream of the second portion. An air inlet;
An air outlet;
a fan configured to rotate about a fan axis to create an air flow through an air flow path extending from the air inlet to the air outlet;
a separation device disposed in the air flow path, the separation device configured to separate dust from air flowing through the air flow path;
A handheld vacuum cleaner comprising:
The air flow path includes a sound-reducing section extending from the fan in an extension direction, and an angle between the extension direction and the fan axis is less than 45 degrees;
The sound-reducing section includes a first portion, a second portion downstream of the first portion, and a third portion downstream of the second portion, a cross-sectional area of an outer surface of the second portion being smaller than a cross-sectional area of the outer surface of the first portion, and a cross-sectional area of an outer surface of the third portion being larger than the cross-sectional area of the outer surface of the second portion;
The sound attenuation section includes a motor configured to rotate the fan about the fan axis, the motor being disposed in the first portion;
A handheld vacuum cleaner , wherein the sound reduction section includes a battery configured to provide electricity to the motor, the battery being disposed in the third portion. A handheld vacuum cleaner according to any one of claims 1 to 4 and 8 , wherein the cross-sectional area of the third portion is at least 30% greater than the cross-sectional area of the second portion. A handheld vacuum cleaner according to any one of claims 1 to 4, 8 and 9, wherein the third portion includes the air outlet. 11. The handheld vacuum cleaner of claim 10 , wherein the air outlet includes a shield. 12. The handheld vacuum cleaner of claim 11 , wherein the shield is configured to direct the air in a direction that is angled relative to the fan axis. 13. A handheld vacuum cleaner as claimed in claim 11 or 12 , wherein the shield is arranged to direct the air in a direction generally radial to the fan axis. A handheld vacuum cleaner according to any preceding claim, wherein the length of the second portion, measured in a direction coincident with the fan axis, is greater than 3cm or greater than 5cm. A handheld vacuum cleaner according to any one of claims 1 to 14 , comprising at least one sound absorbing unit provided in a sound absorbing material, preferably a breathable sound absorbing material or a sound absorbing surface coating, arranged in the sound reducing section. A handheld vacuum cleaner according to any one of claims 1 to 15 , comprising at least one sound absorbing unit provided in a sound absorbing material, preferably a breathable sound absorbing material or a sound absorbing surface coating, arranged in the second part of the sound reducing section. A handheld vacuum cleaner according to any one of claims 1 to 4 and 8 to 13 , comprising at least one sound absorbing unit provided in a sound absorbing material, preferably a breathable sound absorbing material or a sound absorbing surface coating, arranged in the third part of the sound reducing section. A handheld vacuum cleaner according to any one of the preceding claims, wherein the angle between the extension direction and the fan axis is less than 25 degrees, or less than 10 degrees , or about 0 degrees. A vacuum cleaner comprising a shaft portion and a detachable handheld vacuum cleaner according to any one of claims 1 to 18 , said shaft portion comprising a handle, two tube portions, a floor nozzle and a holder for said handheld vacuum cleaner arranged between said two tube portions. 20. The vacuum cleaner of claim 19 , wherein the air outlet of the handheld vacuum cleaner is located between the two tube portions when the handheld vacuum cleaner is attached to the holder.

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