CN219699784U - Cleaning suite - Google Patents

Cleaning suite Download PDF

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Publication number
CN219699784U
CN219699784U CN202320046926.9U CN202320046926U CN219699784U CN 219699784 U CN219699784 U CN 219699784U CN 202320046926 U CN202320046926 U CN 202320046926U CN 219699784 U CN219699784 U CN 219699784U
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China
Prior art keywords
cleaning
battery pack
accommodating
energy storage
power supply
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CN202320046926.9U
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Chinese (zh)
Inventor
李斌
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Zhejiang Qixiang Technology Co Ltd
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Zhejiang Qixiang Technology Co Ltd
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Abstract

The utility model belongs to the technical field of cleaning equipment, and particularly relates to a cleaning kit. The battery cleaning kit solves the technical problems of low use efficiency, low turnover rate and the like of batteries in the existing cleaning kit. The cleaning kit includes an energy storage power supply to which a battery pack is removably connected, the battery pack configured to be adapted to draw power from the energy storage power supply; the surface cleaning device is provided with a first matching part which is suitable for accommodating the battery pack, and the battery pack is detachably connected in the first matching part and provides electric energy for the surface cleaning device; the garbage disposal device is suitable for receiving dirt or dust collected by the surface cleaning device, the garbage disposal device is provided with a second matching part capable of accommodating the battery pack, and the battery pack is detachably connected in the second matching part. The utility model can better promote the turnover utilization rate of the batteries of each cleaning device in the cleaning suite, and can save the cost of purchasing products for users.

Description

Cleaning suite
Technical Field
The utility model belongs to the technical field of cleaning equipment, and particularly relates to a cleaning kit.
Background
Modern household cleaning devices typically require electrical power to drive, and are convenient for practical use because batteries are built into many cleaning devices in order to avoid cable interference during cleaning.
However, many cleaning devices are left idle, which results in that the internal battery is left idle, the battery utilization is not high, and when a cleaning device left idle for a long time is required to be used, the cleaning device is usually left in a low-power state, which has a great influence on the use experience of users. Secondly, when other components of the cleaning device than the battery are damaged, the battery has to be discarded together, causing pollution to the environment.
Disclosure of Invention
The utility model aims at the problems existing in the prior art, and provides a cleaning kit, which aims at solving the technical problems that: how to improve the use efficiency and the low turnover rate of the battery in the cleaning suite.
The aim of the utility model can be achieved by the following technical scheme:
a cleaning kit comprising:
an energy storage power supply to which a battery pack is detachably connected, the battery pack being configured to be adapted to draw power from the energy storage power supply; the surface cleaning device is suitable for collecting dirt or dust on the surface of an object, the surface cleaning device is provided with a first matching part which is suitable for accommodating the battery pack, and the battery pack is detachably connected in the first matching part and provides electric energy for the surface cleaning device so as to drive the surface cleaning device to perform cleaning operation;
the garbage disposal device is suitable for receiving dirt or dust collected by the surface cleaning device, the garbage disposal device is provided with a second matching part capable of accommodating the battery pack, and the battery pack is detachably connected in the second matching part and provides electric energy for the garbage disposal device.
In the above cleaning kit, the first mating part and the second mating part are both provided with the first electrical connector, the battery pack is provided with the second electrical connector, and when the battery pack is assembled into the first mating part or the second mating part, the battery pack is electrically connected with the first electrical connector in the first mating part or the second mating part.
In the above cleaning kit, the working voltage of the surface cleaning device is greater than the working voltage of the garbage disposal device, the first adapting part is provided with at least two first accommodating cavities for accommodating the battery packs, and each first accommodating cavity is internally provided with the first electric connector.
In the cleaning kit, the energy storage power supply is provided with at least two accommodating cavities II capable of accommodating the battery packs, and the electric connector I is arranged in each accommodating cavity II.
In the above-mentioned clean external member, clean external member still includes charging device, the last a plurality of that is used for acceping of charging device hold the chamber III that holds of battery package all is equipped with electric connector one in every holds the chamber III, works as hold when holding the chamber in the chamber III and having held the battery package, charging device is connected with energy storage power supply electricity, charging device can acquire the electric energy and charge for each battery package that holds in the chamber III from energy storage power supply.
In the above cleaning kit, the cleaning kit includes at least two of the battery packs.
A cleaning kit comprising:
the energy storage power supply is detachably connected with a battery pack which can acquire electric power from the energy storage power supply;
the cleaning kit further comprises at least two cleaning devices powered by a battery pack detached from the energy storage power supply, each cleaning device being provided with an adapter for mounting and electrically connecting the battery pack;
at least one of the cleaning devices has a chamber for receiving dirt or dust.
In the above-described cleaning kit, one of the cleaning apparatuses is a surface cleaning device in which the chamber is provided, and the surface cleaning device includes a suction nozzle communicating with the chamber and a blower capable of generating negative pressure in the chamber.
In the above-described cleaning kit, the cleaning apparatus includes at least two of a watering can, a surface cleaning device, and a garbage disposal device.
In the above cleaning kit, the voltages required by at least two cleaning devices are different, wherein one cleaning device is provided with a first mating part capable of accommodating at least two battery packs, and the other cleaning device is provided with a second mating part capable of accommodating one battery pack.
A cleaning kit comprising:
an energy storage power supply to which a battery pack is detachably connected, the battery pack being configured to be adapted to draw power from the energy storage power supply to charge;
a plurality of cleaning devices adapted to be powered by said battery pack for driving, each of said cleaning devices requiring electrical power for operation;
at least one of the cleaning apparatuses is configured as a waste disposal device configured to receive dirt or dust;
each cleaning device comprises a matching part, and the matching parts are provided with electric connecting pieces;
the battery pack includes a housing and electrical connector that mate with the mating portion of each of the cleaning devices and are received to mount a connection to removably connect the battery pack to each of the cleaning devices and power each of the battery-powered cleaning devices.
In the above-described cleaning kit, one of the plurality of cleaning apparatuses is a surface cleaning device provided with a chamber, and the surface cleaning device includes therein a suction nozzle in communication with the chamber and a blower capable of generating a negative pressure in the chamber.
In the above cleaning kit, the working voltage of the surface cleaning device is greater than the working voltage of the garbage disposal device, the first adapting part of the surface cleaning device is provided with at least two first accommodating cavities for accommodating the battery packs, and each first accommodating cavity is internally provided with the first electric connector.
Compared with the prior art, the utility model has the following advantages:
1. the turnover utilization rate of each cleaning equipment battery in the cleaning kit can be better improved, and the cost of purchasing products by users can be saved.
2. More cleaning devices are driven by a smaller number of battery packs and can provide longer service times for the cleaning devices.
Drawings
Fig. 1 is a schematic view of the use cycle of the battery pack in the present cleaning kit in each device.
Fig. 2 is a schematic perspective view of a battery pack.
Fig. 3 is a schematic perspective view of a first form of the energy storage power supply.
Fig. 4 is a schematic perspective view of a second form of the energy storage power supply.
Fig. 5 is a schematic perspective view illustrating a process of coupling the energy storage power supply to the charging device in the second configuration.
Fig. 6 is a partial view of a single battery pack powered surface cleaning apparatus.
Fig. 7 is a partial cross-sectional view of the surface cleaning apparatus of fig. 6.
Fig. 8 is a partial view of a two battery pack powered surface cleaning apparatus.
Fig. 9 is an exploded view of the surface cleaning apparatus at the suction nozzle.
Fig. 10 is a cross-sectional view of the garbage disposal apparatus.
Fig. 11 is a partial enlarged view of fig. 10.
Fig. 12 is another single battery pack powered surface cleaning apparatus.
Fig. 13 is a schematic view of a construction in which the surface cleaning apparatus is used in combination with a waste disposal apparatus.
In the figure, 1, an energy storage power supply; 1a, a second accommodating cavity; 1b, a first contact; 1c, a built-in battery cell;
2. a battery pack;
3. a surface cleaning device; 3a, a first adapting part; 3a1, a first accommodating cavity;
3b, a suction nozzle; 3c, a fan;
4. a garbage disposal apparatus; 4a, a second adapting part; 4a1, a receiving chamber IV; 4b, a packing mechanism; 4c, a motor; 4d, a cavity;
5. an electrical connector I; 6. an electric connector II;
7. a charging device; 7a, a containing cavity III; 8. a chamber; 9. a floor brush head; 9a, dust box.
Detailed Description
The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.
As shown in fig. 1 to 5, the cleaning kit includes an energy storage power supply 1 and a battery pack 2, where the energy storage power supply 1 is provided with a second accommodating cavity 1a, where the number of the second accommodating cavities 1a may be plural, and the specific number may be determined according to the requirement or the replacement requirement of the number of the battery packs 2 in the cleaning kit, and in this embodiment, the number of the second accommodating cavities 1a is two. Each accommodating cavity II 1a is internally provided with an electric connecting piece I5, the battery pack 2 is provided with an electric connecting piece II 6, when the battery pack 2 is inserted into the accommodating cavity II 1a, the electric connecting piece I5 and the electric connecting piece II 6 are mutually matched, so that electric connection between the energy storage power supply 1 and the battery pack 2 is realized, the battery pack 2 obtains electric power from the energy storage power supply 1, and when the battery pack 2 finishes obtaining electric energy, the battery pack 2 can be taken out from the energy storage power supply 1 for use. Specifically, the energy storage power supply 1 is provided with a built-in electric core 1c, and the battery pack 2 obtains electric power through electric energy stored in the built-in electric core 1 c.
The outline of the accommodating cavity II 1a is similar to the outline of the shell of the battery pack 2, and when the battery pack 2 is placed in the accommodating cavity II 1a, the battery pack is mechanically connected with the energy storage power supply 1, and the mechanical connection can be realized through a latch or a tight fit.
As shown in fig. 1, 6, 8 and 12, the present cleaning kit further comprises three surface cleaning apparatuses 3, only one of which 3 may be selected during actual use. The three surface cleaning apparatuses 3 have the same features that the surface cleaning apparatus 3 has a dust collection function, and in particular, the surface cleaning apparatus 3 has a chamber 8 for accommodating dirt or dust, and the surface cleaning apparatus 3 further has a suction nozzle 3b and a blower 3c which communicate with the chamber 8, and the blower 3c is operated in the chamber 8 to form a negative pressure so that the suction nozzle 3b can suck in dust or the like on the surface of an object and remain in the chamber 8.
Specifically, as shown in fig. 6, 8 and 12, each of the three surface cleaning apparatuses 3 is provided with a mating portion 3a adapted to house the battery pack 2, and the mating portion 3a includes a housing chamber 3a1 for housing the battery pack 2 and an electrical connector 5 for electrically connecting with the battery pack 2. When the battery pack 2 is placed in the first accommodating cavity 3a1, the second electric connector 6 on the battery pack 2 is electrically connected with the first electric connector 5, and the battery pack 2 provides electric energy for the surface cleaning device 3 to drive the surface cleaning device 3 to perform cleaning operation.
Specifically, there are certain differences between the three surface cleaning apparatuses 3:
the three surface cleaning apparatuses 3 are different in voltage requirement when in use, and as shown in fig. 6 and 12, they can be driven by only a single battery pack 2, and the surface cleaning apparatus 3 shown in fig. 7 and 12 is provided with a receiving chamber 3a1. As shown in fig. 8, which requires the voltage supplied from two battery packs 2 to drive, two accommodating chambers 3a1 are provided in the surface cleaning apparatus 3 shown in fig. 8.
As shown in fig. 9, the floor brush head 9 is mounted on the surface cleaning apparatus 3 of fig. 6 and 8, and the floor brush head 9 is not disposed on the surface cleaning apparatus 3 shown in fig. 12.
The floor brush head 9 shown in fig. 9 comprises a body, the body is provided with the cavity 8, a disposable dust box 9a is arranged in the cavity 8, and the dust box 9a can be taken out and discarded after the dust box 9a is filled with dust and impurities.
A heel filter screen is provided in the chamber 8 in the surface cleaning apparatus 3 shown in fig. 12 to block dust, leaving it in the chamber 8.
The surface cleaning device further comprises a watering can which can wet the surface of the object, the watering can is provided with a scraping strip which is used for scraping the surface of the object, and liquid which can be scraped off the surface of the object and can be collected is arranged below the scraping strip and can be poured into the garbage disposal device 4.
As shown in fig. 1, 10 and 13, the cleaning kit further comprises a garbage disposal device 4, the garbage disposal device 4 is suitable for receiving dirt or dust collected by the surface cleaning device 3, the garbage disposal device 4 is provided with a second mating part 4a capable of accommodating the battery pack 2, an electric connector 5 is arranged in the second mating part 4a, the battery pack 2 is detachably connected in the second mating part 4a, and when the battery pack 2 is assembled in the second mating part 4a, the electric connector 6 of the battery pack 2 is electrically connected with the electric connector 5 in the second mating part 4 a.
Specifically, as shown in fig. 10 and 11, the second adapting portion 4a includes a receiving cavity four 4a1 for receiving the battery pack 2, the second adapting portion 4a includes an electrical connector 5 disposed in the receiving cavity four 4a1, the receiving cavity four 4a1 is similar to the outer shell of the battery pack 2, and after the battery pack 2 is placed in the receiving cavity four 4a1, the battery pack is mechanically connected with the garbage disposal device 4, and the mechanical connection can be achieved through a latch or a tight fit.
As shown in fig. 10, the garbage disposal apparatus 4 has a packing mechanism 4b and a motor 4c, which are powered and operated by the battery pack 2. A cavity 4d for placing a garbage bag is arranged in the garbage treatment device 4, the garbage bag seals a bag opening through a packing mechanism 4b, and garbage odor in the garbage bag is prevented from being diffused; the motor 4c is connected with a blade, when the motor 4c is driven, air in the cavity 4d is pumped out, and the garbage bag is attached to the inner wall of the cavity 4d of the garbage disposal device 4, so that the garbage bag can be ensured to be paved flatly.
As shown in fig. 1, 8 and 10, the present garbage disposal apparatus 4 requires a smaller operating voltage than the surface cleaning apparatus 3 shown in fig. 8, and in the case of using the same battery pack 2, the number of accommodating chambers one 3a1 is larger than the number of accommodating chambers four 4a 1.
The waste disposal device 4 may also be for compressing a volume of waste, in particular the waste disposal device 4 comprises a compacting plate and a motor. The motor works to drive the pressing plate to squeeze the garbage in the garbage disposal device 4, so that the volume of the garbage is reduced at one time.
Example 1
In this embodiment, the minimum number of battery packs 2 in the cleaning kit is two, in this embodiment, the number of battery packs 2 is two, two accommodating cavities two 1a are provided in the energy storage power supply 1, and the surface cleaning device 3 shown in fig. 6 or 12 is used, so that a user can take out one of the battery packs 2 which is charged completely into the surface cleaning device 3 to provide electric energy for the surface cleaning device 3 to work, after the surface cleaning work is completed, the battery packs 2 are put into the garbage disposal device 4 to continue to provide electric energy for the garbage disposal device 4, and dust, dirt, garbage and the like collected in the surface cleaning device 3 are dumped into the garbage bag of the garbage disposal device 4. This clean external member has promoted the turnover rate of battery package 2. When the cleaning work is completed, the battery pack 2 is taken out from the garbage disposal device 4 or the surface cleaning device 3 and put back into the energy storage power supply 1, and the battery pack 2 is charged in time, so that the electric quantity of the battery pack 2 is ensured to be in a full-electricity state when being used each time.
Or, when the electric quantity of the battery pack 2 installed on the surface cleaning device 3 is used up, the service time of the surface cleaning device 3 can be prolonged by exchanging the battery pack 2 with another battery pack 2 on the energy storage power supply 1, and the battery pack 2 taken down from the surface cleaning device 3 is charged in the energy storage equipment, and the battery pack 2 after charging can be taken down to supply power for the garbage disposal device 4.
Alternatively, two battery packs 2 may be simultaneously placed in the surface cleaning apparatus 3 and the garbage disposal apparatus 4, respectively, to meet the use demands of more members.
Example two
In this embodiment, the number of the battery packs 2 in the cleaning kit is four, and the surface cleaning device 3 shown in fig. 8 is adopted in this embodiment, where two battery packs 2 are placed in the surface cleaning device 3, and the other two battery packs 2 are located in the accommodating cavity two 1a of the energy storage power supply 1, so that the battery packs 2 located in the energy storage power supply 1 are in a full-power state, and when the electric quantity of the battery packs 2 in the surface cleaning device 3 is exhausted, the battery packs 2 in the energy storage power supply 1 can be replaced in time so that the surface cleaning device 3 can continue to work, and the battery packs 2 replaced from the surface cleaning device 3 can be recharged, and when the cleaning work is completed, the battery packs 2 on the energy storage power supply 1 can be taken down to provide electric energy for the garbage disposal device 4.
Example III
The present embodiment differs from the second embodiment in that at least 6 battery packs 2 are provided in the present embodiment, and the surface cleaning apparatus 3 shown in fig. 6, 8 and 12 can be used at the same time. In addition, in this embodiment, a charging device 7 is further configured, and the charging device 7 expands the energy storage power supply 1 to charge more than two battery packs 2, so as to meet the requirement of simultaneous use of multiple devices.
In this embodiment, the charging device 7 is provided with at least two accommodating chambers three 7a, the accommodating chambers three 7a can accommodate the battery pack 2, each accommodating chamber three 7a is provided with an electric connector one 5, and when the battery pack 2 is placed in the accommodating chamber three 7a, the electric connector two 6 of the battery pack 2 is electrically connected with the electric connector one 5 of the charging device 7. The energy storage power supply 1 is provided with a first contact 1b, the charging device 7 is provided with a second contact, when the charging device 7 is placed on the energy storage power supply 1, the first contact 1b is in butt joint with the second contact, electric energy on the energy storage power supply 1 is transmitted to the charging device 7, and the battery pack 2 matched on the charging device 7 is charged.
The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.
Although the terms energy storage power supply, receiving cavity two and contact are used more herein, the possibility of using other terms is not excluded. These terms are used merely for convenience in describing and explaining the nature of the utility model; they are to be interpreted as any additional limitation that is not inconsistent with the spirit of the present utility model.

Claims (13)

1. A cleaning kit, comprising:
-an energy storage power supply (1) to which a battery pack (2) is detachably connected, the battery pack (2) being configured to be adapted to draw power from the energy storage power supply (1); a surface cleaning device (3) which is suitable for collecting dirt or dust on the surface of an object, wherein the surface cleaning device (3) is provided with a first matching part (3 a) which is suitable for accommodating the battery pack (2), and the battery pack (2) is detachably connected in the first matching part (3 a) and provides electric energy for the surface cleaning device (3) to drive the surface cleaning device (3) to perform cleaning operation;
the garbage disposal device (4) is suitable for receiving dirt or dust collected by the surface cleaning device (3), the garbage disposal device (4) is provided with a second matching part (4 a) capable of accommodating the battery pack (2), and the battery pack (2) is detachably connected in the second matching part (4 a) and provides electric energy for the garbage disposal device (4).
2. The cleaning kit according to claim 1, wherein the first mating part (3 a) and the second mating part (4 a) are provided with first electrical connectors (5), the battery pack (2) is provided with second electrical connectors (6), and when the battery pack (2) is assembled into the first mating part (3 a) or the second mating part (4 a), the battery pack (2) is electrically connected with the first electrical connectors (5) in the first mating part (3 a) or the second mating part (4 a).
3. The cleaning kit according to claim 2, wherein the working voltage of the surface cleaning device (3) is greater than the working voltage of the garbage disposal device (4), the first adapting part (3 a) is provided with a plurality of first accommodating cavities (3 a 1), the garbage disposal device (4) is provided with a plurality of fourth accommodating cavities (4 a 1), the number of the first accommodating cavities (3 a 1) is greater than the number of the fourth accommodating cavities (4 a 1), and electric connecting pieces (5) are arranged in each of the first accommodating cavities (3 a 1) and the fourth accommodating cavities (4 a 1).
4. The cleaning kit according to claim 2, wherein the energy storage power supply (1) is provided with at least two accommodating cavities (1 a) capable of accommodating the battery pack (2), and each accommodating cavity (1 a) is internally provided with the first electric connecting piece (5).
5. The cleaning kit according to claim 2 or 4, further comprising a charging device (7), wherein a plurality of accommodating cavities (7 a) for accommodating the battery packs (2) are formed in the charging device (7), an electric connector (5) is arranged in each accommodating cavity (7 a), when the battery packs (2) are accommodated in the accommodating cavities (7 a), the charging device (7) is electrically connected with the energy storage power supply (1), and the charging device (7) can acquire electric energy from the energy storage power supply (1) and charge the battery packs (2) in the accommodating cavities (7 a).
6. The cleaning kit according to claim 1 or 2 or 4, characterized in that it comprises at least two of said battery packs (2).
7. A cleaning kit, comprising:
the energy storage power supply (1), wherein the energy storage power supply (1) is detachably connected with a battery pack (2) which can acquire electric power from the energy storage power supply (1);
the cleaning kit further comprises at least two cleaning devices powered by a battery pack (2) detached from the energy storage power supply (1), each cleaning device being provided with an adapter for mounting and electrically connecting the battery pack (2);
at least one of the cleaning devices has a chamber (8) for receiving dirt or dust.
8. A cleaning kit according to claim 7, characterized in that one of the cleaning devices is a surface cleaning device (3), the surface cleaning device (3) is provided with the chamber (8), and the surface cleaning device (3) comprises a suction nozzle (3 b) in communication with the chamber (8) and a fan (3 c) capable of generating a negative pressure in the chamber (8).
9. A cleaning kit according to claim 7, characterized in that the cleaning apparatus comprises at least two of a surface cleaning device (3) and a waste disposal device (4).
10. The cleaning kit according to claim 7, wherein the voltages required for at least two cleaning devices are different, wherein one cleaning device is provided with a first mating part (3 a) for accommodating at least two battery packs (2), and the other cleaning device is provided with a second mating part (4 a) for accommodating one battery pack (2).
11. A cleaning kit, comprising:
-an energy storage power supply (1) to which a battery pack (2) is detachably connected, the battery pack (2) being configured to be adapted to draw power from the energy storage power supply (1) for charging;
a plurality of cleaning devices adapted to be powered by said battery pack (2) for driving, each of said cleaning devices requiring electric power for operation;
at least one of the cleaning devices is configured as a waste disposal device (4), the waste disposal device (4) being configured to receive dirt or dust;
each cleaning device comprises a matching part, and the matching parts are provided with an electric connecting piece I (5);
the battery pack (2) includes a housing and electrical connector (6) that mate with the mating portion of each of the cleaning devices and are received to mount a connection to removably connect the battery pack (2) to each of the cleaning devices and to power each of the battery-powered cleaning devices.
12. A cleaning kit according to claim 11, characterized in that one of the plurality of cleaning devices is a surface cleaning apparatus (3), the surface cleaning apparatus (3) is provided with a chamber (8), and the surface cleaning apparatus (3) comprises therein a suction nozzle (3 b) in communication with the chamber (8) and a fan (3 c) capable of generating a negative pressure in the chamber (8).
13. The cleaning kit according to claim 12, wherein the operating voltage of the surface cleaning device (3) is greater than the operating voltage of the garbage disposal device (4), the mating part (3 a) of the surface cleaning device (3) is provided with at least two accommodating cavities (3 a 1) for accommodating the battery packs (2), and an electric connector (5) is arranged in each accommodating cavity (3 a 1).
CN202320046926.9U 2022-01-05 2023-01-05 Cleaning suite Active CN219699784U (en)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
CN2022200151726 2022-01-05
CN202220015172 2022-01-05
CN2022102243727 2022-03-09
CN202210224372 2022-03-09

Publications (1)

Publication Number Publication Date
CN219699784U true CN219699784U (en) 2023-09-19

Family

ID=87997675

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202320046926.9U Active CN219699784U (en) 2022-01-05 2023-01-05 Cleaning suite

Country Status (1)

Country Link
CN (1) CN219699784U (en)

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