CN113907637A - Hand-held cleaning device - Google Patents

Abstract

The embodiment of the application provides a handheld cleaning device. Wherein the handheld cleaning appliance comprises: a dust collection assembly having a first air flow passage; the handle assembly comprises a handheld part and a containing part arranged at the upper end of the handheld part, and the containing part is connected with the dust collection assembly and communicated with the first air flow channel; the suction unit is positioned above the handheld part and is at least partially arranged in the accommodating part; the battery pack comprises a first battery pack and a second battery pack, the first battery pack is arranged in the handheld portion, and the second battery pack is arranged in the accommodating portion. In the technical scheme that this application embodiment provided, with weight account for than great suction unit setting in the top of handheld portion, set up battery pack in handle assembly simultaneously for hand-held type cleaning device's complete machine focus is close to more in handheld portion, reduces the complete machine weight bias, and the user is when holding handheld portion and using, and the hand can be relaxed more for the complete machine provides the support, makes to hold and feels better.

Description

Hand-held cleaning device

Technical Field

The application relates to the field of household cleaning, in particular to a handheld cleaning device.

Background

Hand-held cleaning appliances, such as hand-held vacuum cleaners, are a common type of household cleaning appliance. Because the handheld cleaning device is small in size and light in weight, the handheld cleaning device is suitable for cleaning household sanitation. At present, the common handheld vacuum cleaner has a direct power supply type and a battery power supply type, and the battery power supply type handheld vacuum cleaner breaks away from the constraint of electric wires and is convenient for users to use.

At present, when a user uses a traditional handheld dust collector to perform cleaning operation, the user often feels that the wrist is sour after using the traditional handheld dust collector for a short time, so that the use experience of the user is influenced.

Disclosure of Invention

In view of the above, the present application is directed to a hand-held cleaning device that solves, or at least partially solves, the above mentioned problems.

In one embodiment of the present application, there is provided a handheld cleaning appliance comprising:

a dust collection assembly having a first air flow passage;

the handle assembly comprises a handheld part and a containing part arranged at the upper end of the handheld part, and the containing part is connected with the dust collection assembly and communicated with the first air flow channel;

a suction unit located above the handle portion and at least partially disposed within the receiving portion;

the battery pack comprises a first battery pack and a second battery pack, the first battery pack is arranged in the handheld portion, and the second battery pack is arranged in the accommodating portion.

Optionally, the suction unit is located between an extension of the hand-held part and the dust collection assembly; alternatively, the first and second electrodes may be,

the extension line is positioned between the suction unit and the dust collection assembly; alternatively, the first and second electrodes may be,

the extension line passes through the suction unit.

Optionally, the suction unit is located in the receptacle when the suction unit is located between the extension line and the dust collection assembly, or the suction unit is located at least partially in the receptacle and partially in the dust collection assembly.

Optionally, the suction unit is located between the second battery pack and the dirt collection assembly; alternatively, the first and second electrodes may be,

the second battery pack is located between the suction unit and the dust collection assembly.

Optionally, an extension line of the handle passes through the second battery pack.

Optionally, the handheld portion has a second air flow channel, an air inlet of the second air flow channel is disposed at an end of the handheld portion away from the accommodating portion, and an air outlet of the second air flow channel is communicated with an air inlet of the suction unit;

the battery assembly is located in the second airflow channel.

Optionally, a partition plate is arranged in the accommodating part, and the partition plate partitions the interior of the handle assembly into a motor cavity and a battery cavity;

the suction unit is arranged in the motor cavity, the motor cavity is communicated with the first air flow channel, and an air outlet is formed in the cavity wall of the motor cavity;

the battery assembly is arranged in the battery cavity, the battery cavity is the second airflow channel, and the battery cavity is communicated with the air inlet of the suction unit through a third airflow channel.

Optionally, the suction unit is located downstream of the battery assembly, and the air inlet of the suction unit faces the battery assembly.

Optionally, a base is disposed at an end of the handheld portion away from the accommodating portion, the base is connected to the dust collecting assembly, and the air inlet of the second air flow channel is disposed on the base.

Correspondingly, this application embodiment still provides a hand-held type cleaning device, includes:

a dust collection assembly having a first air flow passage;

the handle assembly is provided with a handheld part and a containing part arranged at the upper end of the handheld part, and the containing part is connected with the dust collection assembly and communicated with the first air flow channel;

a suction unit for generating a suction airflow passing through the first airflow channel;

the battery pack comprises a first battery pack and a second battery pack, wherein the first battery pack is arranged in the handheld portion, and the second battery pack is arranged in the accommodating portion.

Additionally, optionally, the suction unit is disposed above the dirt collection assembly.

In the technical scheme that this application embodiment provided, with the weight account for than great suction unit setting in the top of handheld portion, set up battery pack in handle assembly simultaneously, make handheld cleaning device's complete machine focus be close to more in handheld portion, the user is when holding handheld portion and using handheld cleaning device, the moment of torsion between hand and the complete machine focus is little, the hand can provide the support for the complete machine more easily, thereby make the complete machine have good the hand of gripping, reduce the condition of the partial weight that the complete machine focus leads to before too leaning on or leaning on the back, influence is felt.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic structural diagram of a handheld cleaning device according to an embodiment of the present disclosure;

FIG. 2 is a schematic side sectional view of a handheld cleaning device according to an embodiment of the present disclosure;

FIG. 3 is a schematic side sectional view of another hand-held cleaning device according to an embodiment of the present disclosure;

fig. 4 is a schematic side sectional view of a handheld cleaning device according to another angle in an embodiment of the present disclosure.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Fig. 1 is a schematic structural diagram of a handheld cleaning device according to an embodiment of the present application, and fig. 2 is a schematic structural diagram of a side cross-sectional view of the handheld cleaning device according to the embodiment of the present application, as shown in fig. 1 and fig. 2.

In one embodiment of the present application, a handheld cleaning appliance is provided. The hand-held cleaning device comprises: a dust collection assembly 10, a handle assembly 20, a suction unit 30, and a battery assembly 40. The handheld cleaning device provided by the embodiment of the application comprises but is not limited to a handheld dust collector.

Wherein the dust collection assembly 10 has a first air flow passage. The gas can enter the dust collection assembly 10 through the first gas flow path and flow along the first gas flow path into components at a location downstream of the dust collection assembly 10 for subsequent processing.

The handle assembly 20 includes a handle portion 201 and a receiving portion 202 disposed at an upper end of the handle portion 201, and the receiving portion 202 is connected to the dust collecting assembly 10 and is communicated with the first air flow passage. The user can lift and move the hand-held cleaning device by holding the hand-held portion 201 with his hand, thereby performing cleaning work. The accommodating part 202 of the upper end of the handle 201 is used for connecting the dust collection assembly 10, and the accommodating part 202 is also used for accommodating at least one of the suction unit 30 and the battery assembly 40.

The suction unit 30 is located above the hand-held portion 201 and is at least partially disposed within the receiving portion 202. The suction unit 30 is configured to generate a negative pressure to generate a suction airflow such that external air enters the dust collection assembly 10 along with the suction airflow and then flows out of the first airflow channel to enter the accommodating portion 202, and an outlet may be provided on the accommodating portion 202, and the airflow may flow out of the accommodating portion 202 through the outlet.

The battery assembly 40 includes a first battery pack 401 and a second battery pack 402, the first battery pack 401 is disposed in the handle portion 201, and the second battery pack 402 is disposed in the accommodating portion 202. The battery assembly 40 is connected to a power consuming unit on the hand-held cleaning device to provide electrical power to the power consuming unit so that the power consuming unit can operate. The power consuming unit includes, but is not limited to, the suction unit 30 and a main control unit (not shown) of the cleaning device.

In the technical scheme that this application embodiment provided, for other parts of cleaning device, the weight of suction unit 30 and battery pack 40 accounts for than all great, account for the great suction unit 30 setting of ratio in handheld portion 201 with weight, set up battery pack 40 in handle assembly 20 simultaneously, make handheld cleaning device's complete machine focus be close to handheld portion 201 more, the user is when handheld portion 201 uses handheld cleaning device holding, the moment of torsion between hand and the complete machine focus is little, the hand can provide the support for the complete machine more easily, thereby make the complete machine have good hand of holding and feel, reduce the condition of the partial weight that the complete machine focus leads to too far forward or near back, influence and feel.

In the embodiment of the present application, one way to achieve the dust collecting assembly 10 is that the dust collecting assembly 10 includes a dust barrel 101 and a separator 102 disposed inside the dust barrel 101, the separator 102 includes but is not limited to a cyclone separator, an air inlet passage 103 is further disposed on a side wall of the dust barrel 101, and an air flow direction of the air inlet passage 103 is tangential to an inner cavity of the dust barrel 101, so that after the dusty air flow entering the dust barrel 101 through the air inlet passage 103 enters the dust barrel 101, a cyclone can be generated to rotate, so as to form a first dust-air separation. A primary dust collecting space is formed between the outer wall of the separator 102 and the inner wall of the dust barrel 101, and the solid matters after the primary dust-gas separation are collected in the primary dust collecting space. The airflow with a small amount of fixed substances is filtered and separated by the separator 102 to form a second dust-gas separation, the solid substances after the second dust-gas separation are collected in a secondary dust collecting space formed by the separator 102, and the filtered airflow flows out of the dust barrel 101 and enters the accommodating part 202. One way of achieving the suction unit 30 is that the suction unit 30 comprises a motor and a fan, the motor being adapted to drive the fan in rotation to generate a suction airflow. A filtering device may be further provided between the first air flow passage and the suction unit 30 to prevent dust from entering into the suction unit 30.

Further, in the present embodiment, in order to make the center of gravity of the suction unit 30 closer to the hand-held portion 201, the arrangement of the suction unit 30 may be achieved in various ways. For example, the handheld portion 201 has an extension line extending along the extending direction of the handheld portion 201, and the suction unit 30 may be disposed based on the position of the extension line of the handheld portion 201, and the extension line of the handheld portion 201 may be referred to as a dotted line a in fig. 2 and 3.

Referring to fig. 2, the suction unit 30 is arranged in such a manner that the suction unit 30 is located between an extension line of the hand-held portion 201 and the dust collection assembly 10. In this arrangement, the suction unit 30 is disposed above the hand-held portion 201 on the side close to the dust collection assembly 10, and the suction unit 30 may be disposed on the front side of the upper end of the hand-held portion 201. The gravity center of the suction unit 30 is relatively located at the middle position of the whole machine, and the part of the gravity center is close to the handheld portion 201, so that the gravity center of the whole machine is close to the handheld portion 201, the gravity of the suction unit 30 can be better transmitted to the handheld portion 201, and the holding hand feeling of a user is better. Further, the upper part of the extension line of the handheld portion 201 and the position behind the accommodating portion 202 can be used for arranging the second battery pack 402 of the battery assembly 40, so that the battery assembly 40 with a larger weight can also transmit the gravity to the handheld portion 201 more directly, and the holding hand feeling of the user is improved.

Referring to fig. 3, another arrangement of the suction unit 30 is that an extension line is positioned between the suction unit 30 and the dust collection assembly 10. In this arrangement, the suction unit 30 is disposed above the handle 201 on the side away from the dust collection assembly 10, and the suction unit 30 may be disposed on the rear side of the upper end of the handle 201. The center of gravity of the suction unit 30 is far away from the middle position of the whole machine and is arranged closer to the handheld part 201, so that the gravity of the suction unit 30 can be more directly transmitted to the handheld part 201, and the holding hand feeling of a user is better. Further, the upper part of the extension line of the handheld portion 201 and the position of the accommodating portion 202 in front can be used for arranging the second battery pack 402 of the battery assembly 40, so that the battery assembly 40 with a larger weight can transmit the gravity to the handheld portion 201 more directly, and the holding hand feeling of the user is improved.

Yet another arrangement of the suction unit 30 is that the extension line passes through the suction unit 30. In this arrangement, the suction unit 30 is disposed above the handheld portion 201, so that the gravity of the suction unit 30 can be directly transmitted to the handheld portion 201, and compared with the handheld portion 201, the suction unit 30 has less influence of the weight bias, and has better hand feeling. Further, the positions of both sides of the suction unit 30 may be used to dispose the second battery pack 402 of the battery assembly 40.

With continued reference to fig. 2, the arrangement of the suction unit 30 when the suction unit 30 is positioned between the extension line and the dust collection assembly 10 also includes various arrangements. In one implementation, the suction unit 30 is located in the accommodating portion 202, that is, the suction unit 30 is entirely disposed in the accommodating portion 202, and the gravity of the suction unit 30 can completely act on the handheld portion 201, so as to facilitate the conduction of the gravity and the action on the hand of the user, so that the unbalanced condition is reduced, and the hand-holding feeling of the user is ensured. The dotted line B in fig. 2 is an edge boundary line of one side of the dust collection assembly 10, a part on the left side of the dotted line B is the dust collection assembly 10, a part on the right side of the dotted line B is the handle assembly 20, and the suction unit 30 is entirely disposed in the accommodating part 202, i.e., it is illustrated that the suction unit 30 is entirely located on the right side of the dotted line B.

Referring to fig. 2, another arrangement of the suction unit 30 is that the suction unit 30 is at least partially disposed in the accommodating part 202 and partially disposed in the dust collection assembly 10. In this way, the dotted line B passes through the suction unit 30, i.e., the suction unit 30 is partially located at the right side of the dotted line B and partially located at the left side of the dotted line B. By the arrangement, the gravity center of the suction unit 30 is relatively positioned at the middle position of the whole machine, and part of the gravity center is close to the handheld part 201. In addition, the suction unit 30 occupies less space in the accommodating portion 202, and when the second battery pack 402 is disposed in the accommodating portion 202, the second battery pack 402 can be closer to the handheld portion 201, and the gravity of the second battery pack 402 is more directly transmitted to the handheld portion 201, so as to ensure the holding feeling of the user.

Yet another arrangement of the suction unit 30 is that the suction unit 30 is located above the dust collection assembly 10, i.e., the suction unit 30 is located entirely to the left of the dotted line B. In this way, only the second battery pack 402 can be accommodated in the accommodating portion 202, the center of gravity of the battery assembly 40 can be biased to the rear position of the whole machine, and the center of gravity of the suction unit 30 is relatively located at the front position of the whole machine and balanced with the center of gravity of the battery assembly 40, so that the center of gravity of the whole machine tends to the center position and can be close to the handle assembly 20, and thus the gravity of the whole machine is transmitted to the handheld portion 201 to ensure the holding hand feeling of the user.

Further, in the embodiment of the present application, the first battery pack 401 is disposed in the handheld portion 201, and the second battery pack 402 is disposed in the accommodating portion 202, so that the gravity of the first battery pack 401 directly acts on the handheld portion 201, and thus, a user can directly provide acting force for the first battery pack 401, and the condition of heavy weight is reduced. The second battery pack 402 can be matched with the position of the suction unit 30 for setting, the second battery pack 402 can be arranged at the front side of the upper end of the handheld portion 201 and also can be arranged at the rear side of the upper end of the handheld portion 201, the gravity center of the second battery pack 402 is arranged close to the handheld portion 201, so that the gravity of the second battery pack 402 can be directly conducted to the handheld portion 201, the acting force is applied by a user conveniently, and the holding hand feeling of the user is better. In the embodiment of the present application, the arrangement between the second battery pack 402 and the suction unit 30 includes various arrangements, and one way to achieve this is that, referring to fig. 2, the suction unit 30 is located between the second battery pack 402 and the dust collection assembly 10. Referring to fig. 3, another arrangement between the second battery pack 402 and the suction unit 30 is that the second battery pack 402 is located between the suction unit 30 and the dust collection assembly 10. The suction unit 30 and the second battery pack 402 can well transmit the gravity to the handheld portion 201, so that the weight bias of the whole machine is reduced, and the holding hand feeling of a user is ensured.

Further, to enable the second battery pack 402 to conduct gravity more directly onto the handle portion 201, an extension line (i.e., a dotted line a) of the handle portion 201 passes through the second battery pack 402. The second battery pack 402 is arranged above the handheld portion 201, so that gravity of the second battery pack 402 can be directly conducted to the handheld portion 201, and compared with the handheld portion 201, the second battery pack is small in weight influence and good in holding hand feeling.

To further ensure the working performance of the battery assembly 40, it is necessary to cool the battery assembly 40 so that the battery assembly 40 can work at an appropriate temperature to ensure the working efficiency. In some embodiments, one way to cool the battery assembly 40 is to provide the handheld portion 201 with a second air flow channel, the air inlet 2031 of the second air flow channel is disposed at an end of the handheld portion 201 away from the accommodating portion 202, and the air outlet of the second air flow channel is communicated with the air inlet of the suction unit 30. The battery assembly 40 is located in the second airflow path. One arrangement of the intake ports 2031 can be seen in FIG. 1.

When the suction unit 30 is operated, a suction air flow is generated, the source of which is divided into two parts, one part originating from the air inlet passage 103 on the dust collection assembly 10, which suction air flow is used for sucking the external dust-laden air for cleaning operation, and the air flow enters the suction unit 30 through the first air flow passage. Another part of the suction airflow is from the air inlet 2031 at an end of the handle 201 away from the accommodating portion 202, as shown by the solid arrows in fig. 2 and 3, and enters the suction unit 30 through the second airflow channel, and since the temperature of the sucked air is low, the airflow takes away heat from the battery assembly 40 when flowing through the second airflow channel, thereby cooling the battery assembly 40. To prevent dust from flowing from the air inlet 2031 into the second air flow path, a filter structure, such as a filter net, filter cotton, etc., is disposed at the air inlet 2031 to block dust.

In order to better communicate the air outlet of the second air flow channel with the air inlet of the suction unit 30, referring to fig. 4, in the embodiment of the present application, a partition 2021 is disposed in the accommodating portion 202, and the partition 2021 divides the interior of the handle assembly 20 into a motor cavity and a battery cavity. The suction unit 30 is arranged in the motor cavity, the motor cavity is communicated with the first air flow channel, and an air outlet is formed in the cavity wall of the motor cavity. The suction air from the air inlet channel 103 enters the motor cavity through the first air channel and is then discharged from the air outlet.

The battery assembly 40 is disposed in the battery cavity, the battery cavity is a second air flow channel, and the battery cavity is communicated with the air inlet of the suction unit 30 through a third air flow channel 2022. The third airflow channel 2022 includes, but is not limited to, a duct structure, and the suction airflow from the air inlet 2031 flows through the second airflow channel, i.e., the battery cavity, to take away heat from the battery assembly 40, and after the battery assembly 40 is cooled, the airflow flows into the motor cavity through the third airflow channel 2022, and is then exhausted from the air outlet. Further, to better cool the battery assembly 40, the portion of the accommodating portion 202 including the battery cavity may also be provided with an air inlet 2031.

Another way of achieving communication between the air outlet of the second air flow channel and the air inlet of the suction unit 30 is that, referring to fig. 3, the suction unit 30 is located downstream of the battery assembly 40, and the air inlet of the suction unit 30 is directed towards the battery assembly 40. In this way, the air inlet of the suction unit 30 faces the battery assembly 40, when the suction unit 30 works, the air flow in the second air flow channel can be directly sucked, when the air flow flows between the second air flow channel and the suction unit 30, the obstruction is less, the mobility is better, and the cooling efficiency is effectively improved.

With continued reference to fig. 1-4, in some embodiments of the present disclosure, to make the cleaning device more stable when not in use, the end of the handle 201 away from the receptacle 202 is provided with a base 203. The size of the end part of the handheld part 201 can be increased through the base 203, so that the contact area of the handheld part 201 and a placing surface is increased, and more effective support is provided for the whole machine. In order to make the support of the base 203 more stable, the base 203 is connected to the dust collecting assembly 10, the handle 201 and the dust collecting assembly 10 form a relatively stable structure through the base 203, and the dust collecting assembly 10 shares a part of the stress of the base 203, so that the base 203 can be supported better.

The inlet 2031 of the second air flow channel is disposed on the base 203. The base 203 is located relatively far away from the battery assembly 40, and when the air flow enters the second air flow channel through the air inlet 2031 on the base 203, the air flow can completely pass through the battery assembly 40, so that the occurrence of a cooling blind spot is reduced, and the cooling efficiency of the battery assembly 40 is improved.

Based on the handheld cleaning device provided in the above embodiment, the present embodiment also provides another handheld cleaning device, which is different from the above embodiment in the arrangement manner of the suction unit 30.

In one implementation, referring to fig. 1 and 2, a hand-held cleaning device includes: a dust collection assembly 10, a handle assembly 20, a suction unit 30, and a battery assembly 40.

Wherein the dust collection assembly 10 has a first air flow passage. The handle assembly 20 includes a handle portion 201 and a receiving portion 202 disposed at an upper end of the handle portion 201, and the receiving portion 202 is connected to the dust collecting assembly 10 and is communicated with the first air flow passage. The suction unit 30 serves to generate a suction airflow, which passes through the first airflow passage. The battery assembly 40 includes a first battery pack 401 and a second battery pack 402, the first battery pack 401 is disposed in the handle portion 201, and the second battery pack 402 is disposed in the accommodating portion 202.

In the technical solution provided in the embodiment of the present application, the arrangement position of the suction unit 30 is not limited, as long as the suction unit 30 can generate suction airflow when operating. Through setting up the battery pack 40 that accounts for than great in the handheld portion 201 and the holding portion 202 of handle assembly 20 with weight, make handheld cleaning device's complete machine focus be close to more in handheld portion 201, the user is when holding handheld portion 201 and using handheld cleaning device, the moment of torsion between hand and the complete machine focus is little, the hand can provide the support for the complete machine more easily, thereby make the complete machine have good the hand of gripping, reduce the condition of the overweight that the complete machine focus leads to too far forward or lean on the back, influence and feel.

In the embodiment of the present application, the suction unit 30 is disposed in such a manner that the suction unit 30 is disposed above the dust collection assembly 10. In this arrangement, the suction unit 30 is disposed entirely on the left side of the broken line B. Only the second battery pack 402 is accommodated in the accommodating portion 202, the center of gravity of the battery assembly 40 can be deviated to the rear position of the whole machine, and the center of gravity of the suction unit 30 is relatively positioned at the front position of the whole machine and is balanced with the center of gravity of the battery assembly 40, so that the center of gravity of the whole machine tends to the central position and can be close to the handle assembly 20, and the gravity of the whole machine is transmitted to the handheld portion 201, so that the holding hand feeling of a user is ensured. Acting in its entirety on the handle assembly 20.

Of course, the suction unit 30 may be integrally provided in the accommodating part 202, or the suction unit 30 may be partially provided in the accommodating part 202 and partially provided in the dust collection assembly 10, in addition to the above-described arrangement.

The technical solution of the handheld cleaning device provided in the embodiment of the present application is described below with reference to specific application scenarios.

Application scenario one

When a user uses the handheld cleaning device to perform cleaning operation, the user holds the handheld portion 201 by a hand to lift and move the whole machine. Because in the handheld cleaning device, the suction unit 30 is disposed above the handheld portion 201, and meanwhile, the battery assemblies 40 are respectively disposed in the handheld portion 201 and the accommodating portion 202, the gravity center of the handheld cleaning device is closer to the handheld portion 201, and the condition that the handheld cleaning device is heavy is reduced.

The torque between the hand of the user and the gravity center of the whole machine is small, and the acting force of the hand can better act on the gravity center of the whole machine, so that the hand can more easily provide support for the whole machine, the whole machine has good holding hand feeling, and the fatigue condition of the hand of the user is relieved.

Application scenario two

When a user uses the handheld cleaning device to perform cleaning operation, the user holds the handheld portion 201 by a hand to lift and move the whole machine. The suction unit 30 in the cleaning apparatus is operated to generate a suction air flow, the source of which is divided into two parts, one part from the air intake passage 103 of the dust collection assembly 10, for sucking dust for cleaning. The other part of the air flows from the air inlet 2031 at the bottom of the handheld portion 201, and the air flow entering from the air inlet 2031 enters the suction unit 30 through the second air flow channel, and because the temperature of the air sucked in is low, the air flow takes away the heat on the battery assembly 40 when flowing through the second air flow channel, thereby cooling the battery assembly 40.

It should be noted that, the descriptions of "first", "second", etc. in this document are used for distinguishing different messages, devices, modules, etc., and do not represent a sequential order, nor limit the types of "first" and "second" to be different.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (11)

1. A hand-held cleaning device, comprising:

a dust collection assembly having a first air flow passage;

the handle assembly comprises a handheld part and a containing part arranged at the upper end of the handheld part, and the containing part is connected with the dust collection assembly and communicated with the first air flow channel;

a suction unit located above the handle portion and at least partially disposed within the receiving portion;

the battery pack comprises a first battery pack and a second battery pack, the first battery pack is arranged in the handheld portion, and the second battery pack is arranged in the accommodating portion.

2. The hand-held cleaning appliance according to claim 1, wherein the suction unit is located between an extension of the hand-held portion and the dirt collection assembly; alternatively, the first and second electrodes may be,

the extension line is positioned between the suction unit and the dust collection assembly; alternatively, the first and second electrodes may be,

the extension line passes through the suction unit.

3. The handheld cleaning apparatus of claim 2, wherein the suction unit is located within the receptacle when the suction unit is located between the extension cord and the dirt collection assembly, or wherein the suction unit is located at least partially within the receptacle and partially within the dirt collection assembly.

4. The hand-held cleaning device according to any one of claims 1 to 3, wherein the suction unit is located between the second battery pack and the dirt collection assembly; alternatively, the first and second electrodes may be,

the second battery pack is located between the suction unit and the dust collection assembly.

5. The hand-held cleaning device according to any one of claims 1 to 3, wherein an extension of the hand-held portion passes through the second battery pack.

6. The hand-held cleaning device according to any one of claims 1 to 3, wherein the hand-held portion has a second air flow passage, an air inlet of the second air flow passage being provided at an end of the hand-held portion remote from the receiving portion, an air outlet of the second air flow passage being in communication with an air inlet of the suction unit;

the battery assembly is located in the second airflow channel.

7. The hand-held cleaning device of claim 6, wherein a partition is disposed within the receptacle, the partition dividing an interior of the handle assembly into a motor cavity and a battery cavity;

the suction unit is arranged in the motor cavity, the motor cavity is communicated with the first air flow channel, and an air outlet is formed in the cavity wall of the motor cavity;

the battery assembly is arranged in the battery cavity, the battery cavity is the second airflow channel, and the battery cavity is communicated with the air inlet of the suction unit through a third airflow channel.

8. The hand-held cleaning device according to claim 6, wherein the suction unit is located downstream of the battery assembly, the air inlet of the suction unit being directed towards the battery assembly.

9. The handheld cleaning apparatus of claim 6, wherein a base is disposed at an end of the handheld portion away from the receiving portion, the base is connected to the dust collecting assembly, and the air inlet of the second air flow channel is disposed on the base.

10. A hand-held cleaning device, comprising:

a dust collection assembly having a first air flow passage;

the handle assembly is provided with a handheld part and a containing part arranged at the upper end of the handheld part, and the containing part is connected with the dust collection assembly and communicated with the first air flow channel;

a suction unit for generating a suction airflow passing through the first airflow channel;

the battery pack comprises a first battery pack and a second battery pack, wherein the first battery pack is arranged in the handheld portion, and the second battery pack is arranged in the accommodating portion.

11. The hand-held cleaning device according to claim 10, wherein the suction unit is disposed above the dirt collection assembly.

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