CN217244084U - Automatic dust collecting and charging combined structure of vertical two-in-one dust collector - Google Patents

Abstract

The utility model discloses an automatic collection dirt integrated configuration that charges of vertical two unification dust collectors, include: the dust collector comprises a dust collector main body and a dust collecting seat, wherein a dust cup is arranged on the dust collector main body, and a dust cup door is arranged at a dust outlet of the dust cup; the dust collecting seat is provided with an air inlet which is communicated with a dust collecting cavity in the dust collecting seat, and the dust collecting cavity is connected with a negative pressure component; a door trigger structure is arranged on the dust collecting seat and triggers the dust cup door to rotate and open; an electric trigger switch is arranged on the dust collecting seat and controls the negative pressure component to operate; the utility model has the advantages that the whole body of the dust collector is directly placed on the dust collecting seat from top to bottom, and the installation mode is simple and rapid; after the dust collector main body is installed, the negative pressure assembly is triggered to automatically operate at the same time, and dust in the dust cup is sucked into the dust collecting cavity to be collected; the dust is collected and is accomplished the back and charge automatically, and whole process is automatic goes on, need not extra manually operation, and is clean convenient, quick, brings better use impression for the customer.

Description

Automatic dust collecting and charging combined structure of vertical two-in-one dust collector

Technical Field

The utility model relates to a dust catcher technical field, more specifically the automatic collection dirt of two unification dust catchers of vertical integrated configuration that charges that says so.

Background

At present, the arrangement of a wireless dust collector on the market without a dust collecting seat temporarily needs to manually clean dust and garbage in a dust cup of a sub machine and pour the dust and the garbage into a garbage can at home; the manual clearance dust and rubbish in the dirt cup can lead to rubbish dust to fly upward, pollutes local environment and makes dirty hand, very inconvenient to seriously influence user's use and feel.

In order to overcome the problems, manufacturers develop a dust collecting barrel matched with a dust collector for use, and can conveniently collect dust in a dust cup of the wireless dust collector, such as patent numbers: 202111070734.3, discloses a hand-held wireless dust collecting and collecting device, which comprises a main machine dust cup, a dust collecting cover, a movable door mechanism, a dust collecting rod and a dust collecting barrel component, wherein the main machine dust cup is detachably connected to one side of the dust collecting cover, the movable door mechanism is arranged on the surface of the main machine dust cup close to the dust collecting cover, the upper end of the dust collecting rod is inserted into the lower end of the dust collecting cover, and the lower end of the dust collecting rod is inserted into the dust collecting barrel component; however, the above-mentioned products are complicated in structure and are only suitable for a handheld vacuum cleaner, and when other vacuum cleaners are used, the dust cup needs to be detached from the vacuum cleaner and then can be mounted on a dust collecting barrel for use, which is not suitable for a vertical vacuum cleaner.

In view of this, the applicant has developed the prior art and has proposed the following patent applications.

SUMMERY OF THE UTILITY MODEL

The utility model provides an automatic dust collection and charging combined structure of a vertical two-in-one dust collector.

In order to realize the purpose, the utility model adopts the following technical scheme: automatic collection dirt of vertical two unification dust collectors integrated configuration that charges includes: the dust collector comprises a vertical dust collector main body and a dust collecting seat, wherein the dust collector main body is detachably arranged on the dust collecting seat, a dust cup is arranged on the dust collector main body, and a dust cup door is arranged at a dust outlet of the dust cup; the dust collecting seat is provided with an air inlet which is communicated with a dust collecting cavity in the dust collecting seat, and the dust collecting cavity is connected with a negative pressure component; the dust collecting seat is provided with a door triggering structure, the door triggering structure triggers the dust cup door to rotate and open, and the air inlet can be communicated with the dust outlet; the dust collecting seat is provided with an electric trigger switch, the dust collector main body is limited by a limiting structure when being installed on the dust collecting seat, and meanwhile, the electric trigger switch is triggered by the dust collector main body to control the negative pressure component to operate; the main body of the dust collector is of a vertical dust collector structure, and the whole body is directly placed on the dust collecting seat from top to bottom, so that the installation mode is simple and quick; after the dust cup is installed, the dust cup door is correspondingly and automatically opened, the dust outlet corresponds to the air inlet, the negative pressure assembly is triggered to automatically operate after the dust collector body is installed, dust in the dust cup is sucked into the dust collecting cavity to be collected, the whole cleaning process is automatically executed, extra manual operation is not needed, cleaning is convenient and quick, and better use feeling is brought to a client.

In a further technical scheme, a conductive structure is arranged between the dust collector main body and the dust collecting seat, and the conductive structure is used for electrically connecting the dust collector main body and the dust collecting seat and can perform other functions, such as a charging function.

In a further technical solution, the conductive structure includes: the first conducting strip is assembled on the dust collector main body and the second conducting strip is assembled on the dust collecting seat, and the first conducting strip is connected with a first circuit component in the dust collector main body; the second conducting strip is connected with a second circuit component in the dust collecting base; when the dust collector main body is arranged on the dust collecting seat, the first conducting plate is electrically connected with the second conducting plate; the mode that the first conducting strip is contacted with the second conducting strip is a simpler connection mode; the first conducting strip and the second conducting strip can be in elastic contact or contact, and the contact is more stable.

In a further technical scheme, the first circuit component comprises a storage battery, and the dust collector main body is electrically connected with the dust collecting seat through the conductive structure for charging; the storage battery is arranged in the dust collector body, wireless use can be achieved, charging is not needed to be achieved through wire connection during charging, the dust collector body is directly installed on the dust collecting seat, then electric connection can be achieved, and the dust collector is simple and convenient to use.

In a further technical scheme, the limit structure comprises: the main body buckle is arranged on the dust collector main body and is provided with a buckle groove with a downward opening, and the buckle body can be clamped into the buckle groove or separated from the buckle groove; through the mode high-speed joint of buckle, make the vertical stability of dust catcher main part place spacing on the dust collecting seat.

In a further technical scheme, the upper edge of the dust cup door is rotatably connected to the main body of the dust collector or the dust cup through a rotating shaft, and a triggering part is arranged at the position, close to the rotating shaft, of the dust cup door; the door triggering structure is a flange arranged at the upper edge of the air inlet; the flange is abutted against the trigger part and pushes the dust cup door to rotate and open; in the process of installing the dust collector main body, the door triggering structure triggers the dust cup door to rotate and open, so that the operation steps are reduced, and the use convenience is enhanced.

In a further technical scheme, the area of the dust cup door is smaller than that of the air inlet, and the dust cup door enters the air inlet when being rotated and opened; the edge of the air inlet is provided with a sealing rib which protrudes outwards and is connected with the position of the dust outlet on the dust collector main body in a sealing way; ensure the air inlet and the dust outlet to be connected in a sealing way, ensure that the dust falls into the dust collecting cavity from the dust cup through the air inlet and prevent the dust from overflowing.

In a further technical scheme, an air pipe is arranged between the air inlet and the dust collecting cavity in the dust collecting seat; a dust collecting bag is arranged in the dust collecting cavity; the negative pressure component is a fan component and is arranged below the dust collection cavity; the air pipe guides dust to enter the assembly of the dust collecting cavity from the air inlet; the dust collecting bag is convenient for collecting dust in the dust collecting cavity and then intensively treating the dust; the negative pressure component plays a role in air suction.

In a further technical scheme, the cleaner main body comprises: the device comprises a main machine, a handle, a submachine and a floor brush, wherein the submachine is detachably arranged on the main machine; the dust cup is arranged on the sub machine; the concrete structure of dust catcher main part has been injectd to the aforesaid, and the dust catcher main part is vertical wireless dust catcher, and direct mount can carry out functions such as dust clearance, charge on the collection dirt seat, need not to carry out dismantling of part, and is very convenient.

In a further technical scheme, an assembly position for installing a dust collector main body is formed on the dust collection seat, the transverse surface of the assembly position is provided with the electric trigger switch, and the vertical surface of the assembly position is provided with the air inlet; when the dust collector main body is vertically arranged on the dust collecting seat, the ground brush triggers the electric trigger switch; the specific structure of the dust collecting seat is limited, when the dust collector is used, the dust collector main body is directly placed on the dust collecting seat from top to bottom, and when the dust collector is used, the dust collector main body is directly taken out upwards for use.

The utility model discloses a all the other useful technological effects embody in concrete implementation mode.

Drawings

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

FIG. 1 is a schematic view of a vacuum cleaner body and a dust collecting base after being assembled;

FIG. 2 is a schematic view of the cleaner body and the dust collecting base;

FIG. 3 is a cross-sectional view of the cleaner body ready for mounting on a dust cup;

FIG. 4 is an enlarged view taken at A in FIG. 3;

FIG. 5 is a schematic sectional view of the main body of the vacuum cleaner after being mounted on the dust collecting base;

FIG. 6 is an enlarged view at B in FIG. 5;

FIG. 7 is a cross-sectional view of the cleaner body at another angle after being mounted on the dust collecting receptacle;

fig. 8 is an enlarged view at C in fig. 7.

Description of reference numerals:

a cleaner main body 100; a host 110; a floor brush 120; a handle 130; a dirt cup 140;

a dust outlet 141; a dirt cup door 142; a trigger part 1421; a sub-machine 150;

a dust collecting base 200; an air inlet 201; a dust collection chamber 202; an air duct 203; a dust bag 204;

a door trigger mechanism 205; a housing 210; an assembly position 220; a negative pressure assembly 230; a dust chamber door 240;

an electrically triggered switch 250; a body buckle 310; a snap groove 311; a buckle body 320;

a conductive structure 400; a first conductive sheet 410; a second conductive sheet 420; a mounting section 421; the resilient section 422.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Referring to fig. 1-3, the automatic dust collecting and charging assembly of the upright two-in-one vacuum cleaner includes: an upright cleaner body 100 and a dust collecting receptacle 200, wherein the dust collecting receptacle 200 can be placed on a horizontal surface such as a floor, and the cleaner body 100 is detachably mounted on the dust collecting receptacle 200.

The cleaner body 100 includes: a main body 110 and a floor brush 120, wherein the main body 110 is connected with a handle 130, and when the cleaner body 100 is used, a user can perform a dust suction operation by holding the handle 130; when the floor brush is not used and needs to be stored, the floor brush 120 can be placed on the ground, and the handle 130 is placed on the wall body for storage.

The main body 110 is provided with a dust cup 140, and when the cleaner body 100 operates, dust is sucked into the dust cup 140 through the floor brush 120 and collected.

Alternatively, the sub-unit 150 may be installed on the main unit 110, the sub-unit 150 may be detachable from the main unit 110, and the dust cup 140 may be installed on the sub-unit 150, in the conventional upright vacuum cleaner, the sub-unit 150 is detached without configuring the dust collecting base 200, that is, the dust cup 140 is detached from the main unit 110, and then the dust is cleaned.

Further, the inside of the cleaner main body 100 is also provided with a motor and other structures, which are conventional structures included in the cleaner and are not described in detail herein, and the specific dust collection operation principle of the cleaner main body 100 is also not described in detail herein.

In one embodiment, the dust cup 140 is provided with a dust outlet 141, and a dust cup door 142 is arranged at a position corresponding to the dust outlet 141; the dust cup door 142 covers the dust outlet 141, and a sealing ring can be arranged between the connection part of the dust cup door and the dust outlet to prevent dust from leaking.

The dust outlet 141 is located on the side surface of the cleaner body 100, and can be conveniently corresponding to the air inlet 201 on the dust collecting base 200 when being connected with the dust collecting base 200 subsequently; accordingly, the dirt cup door 142 is also disposed at the side.

The upper end of the dust cup door 142 is rotatably installed through a rotating shaft, the dust cup door 142 can be installed on the dust cup 140 or the dust collector main body 100, as long as the dust outlet 141 can be closed; a trigger part 1421 is provided near the upper end of the dirt cup door 142, and the trigger part 1421 protrudes outward.

In one embodiment, the dust receptacle 200 includes: a housing 210, wherein an air inlet 201 is formed on the housing 210, and a dust collection chamber 202 is formed inside the housing 210; the dust collecting base 200 has a generally L-shaped vertical cross-section, the cleaner body 100 is placed on the mounting portion 220 of the dust collecting base 200 from top to bottom when mounted, the mounting portion 220 has a horizontal surface on which the floor brush 120 of the cleaner body 100 is placed and a vertical surface on which the main body 110 is partially in contact connection.

The air inlet 201 is arranged on the vertical surface of the shell 210 and corresponds to the dust outlet 141; a door trigger structure 205 is arranged corresponding to the dust outlet 141, and the door trigger structure 205 can synchronously trigger the dust cup door 142 to open when the dust collector main body 100 is installed on the dust collecting seat 200, so that the dust outlet 141 corresponds to the air inlet 201;

specifically, the door triggering structure 205 is a flange disposed at the upper edge of the air inlet 201, and the flange abuts against the triggering portion 1421 and pushes the dust cup door 142 to rotate and open; when the main body 100 is placed from top to bottom, as shown in fig. 4, before the placement is not completed, the dust cup door 142 moves to a position approximately corresponding to the air inlet 201, and the trigger part 1421 is located above the door trigger structure 205, and after the main body 100 is continuously placed downwards, as shown in fig. 6, the door trigger structure 205 pushes the trigger part 1421, so that the dust cup door 142 rotates around the rotation shaft to open, and the dust outlet 141 corresponds to the air inlet 201.

Furthermore, the area of the dust cup door 142 is smaller than that of the air inlet 201, so that the dust cup door 142 can enter the air inlet 201 after being opened, but does not obstruct ventilation; the edge of the air inlet 201 is provided with a sealing rib protruding outwards, and the sealing rib is connected with the position of the dust outlet 141 on the cleaner body 100 in a sealing manner, so that dust is prevented from overflowing in the dust collecting process.

In one embodiment, the dust receptacle 200 further comprises: the negative pressure component 230, the negative pressure component 230 is arranged below the dust collecting cavity 202 and is communicated with the dust collecting cavity 202; the negative pressure assembly 230 can be a suction fan, and when in operation, air is sucked through the negative pressure assembly 230, so that dust in the dust cup 140 falls into the dust collection cavity 202 through the air inlet 201 for collection;

furthermore, an air duct 203 is arranged between the air inlet 201 and the dust collection chamber 202, and the air duct 203 guides the air flow from the air inlet 201 to the dust collection chamber 202. The air duct channel in the air duct 203 can be an arc-shaped structure, so that the impact of air flow on the inner wall of the air duct 203 can be reduced;

as shown in FIG. 7, the dust collecting chamber 202 is separated from the chamber in which the air duct 203 is located, and the dust collecting chamber 202 is communicated with the air duct 203 through the outlet of the air duct 203.

Further, a dust collecting bag 204 can be arranged in the dust collecting cavity 202, and dust directly falls into the dust collecting bag 204, so that subsequent cleaning is facilitated; as shown in fig. 7, the opening of the dust bag 204 corresponds to the outlet of the air duct 203, and dust is directly sucked into the dust bag 204;

the dust collecting bag 204 can be a paper bag, a non-woven bag and the like.

Further, a dust chamber door 240 is arranged on the dust collecting base 200 corresponding to the dust collecting chamber 202, wherein the dust chamber door 240 is arranged on the side surface of the dust collecting base 200, and the dust in the dust collecting chamber 202 can be cleaned conveniently after the dust chamber door 240 is opened; and the dust collection bag 204 is arranged in the dust collection chamber 202, the dust collection bag 204 can be replaced conveniently.

Alternatively, the dust chamber door 240 may be of a flip type, a push-pull type, a flip type, or the like.

In one embodiment, the dust holder 200 is provided with an electric trigger switch 250, so that the cleaner body 100 can be triggered when the cleaner body 100 is mounted on the dust holder 200.

The electric trigger switch 250 can be a key-type structure or a sensor switch, and is arranged on the surface of the dust collecting base 200;

specifically, as shown in fig. 2, the electric trigger switch 250 is a push-button structure, and is disposed on the transverse plane of the assembly station 220, when the main body 100 of the vacuum cleaner is placed from top to bottom, the floor brush 120 is supported on the transverse plane of the assembly station 220, and presses the electric trigger switch 250 downwards to trigger the operation of the negative pressure assembly 230;

optionally, the electric trigger switch 250 may be disposed on a vertical plane of the assembly station 220, and is triggered by a side surface of the cleaner body 100 when the cleaner body 100 is installed; here, the sub unit 150 of the cleaner main body 100 may be triggered by a side surface of the sub unit 150.

In one embodiment, referring to fig. 3 to 6, a limiting structure is disposed between the cleaner body 100 and the dust collecting base 200, and the cleaner body 100 is stably mounted between the dust collecting base 200 through the limiting structure.

The connection part between the main body 110 and the floor brush 120 can rotate relatively, so that the angle between the main body 110 and the floor brush 120 can be adjusted when a user applies force to push the floor brush 120 to move for dust collection, and then, the main body 100 of the dust collector is mounted on the dust collection base 200, and the limit structure is designed to prevent the main body 110 and the handle 130 from swinging relative to the floor brush 120.

According to the general usage habit, the cleaner body 100 is generally lifted to a designated position and then vertically placed, so the arrangement of the limit structure is also suitable for the usage habit.

Specifically, limit structure include: the main body buckle 310 is arranged on the dust collector main body 100, and the buckle body 320 is arranged on the dust collection base 200, the main body buckle 310 is provided with a buckle slot 311 with a downward opening, the buckle body 320 can be clamped into the buckle slot 311 or separated from the buckle slot 311, when the dust collector main body 100 is placed from top to bottom, the buckle body 320 is inserted into the buckle slot 311, and the dust collector main body 100 and the dust collection base 200 are limited; when in use, the cleaner body 100 is lifted upwards;

optionally, the positions of the main body buckle 310 and the buckle body 320 can be reversed, the main body buckle 310 can be disposed on the dust collecting base 200, the buckle body 320 can be disposed on the cleaner main body 100, and the slot body on the main body buckle 310 is disposed with the opening facing upward.

Further, the vertical surface of the mounting block 220 on the dust collecting base 200 is designed to be a concave arc surface, which matches with the surface arc of the sub-unit 150 on the main body 100 of the vacuum cleaner.

In one embodiment, referring to fig. 7 to 8, a conductive structure 400 is disposed between the cleaner body 100 and the dust collecting receptacle 200, and the conductive structure 400 includes: the first conductive plate 410 is mounted on the cleaner body 100, and the second conductive plate 420 is mounted on the dust holder 200, such that the first conductive plate 410 and the second conductive plate 420 are electrically connected to each other when the cleaner body 100 is mounted on the dust holder 200.

The first conducting strip 410 is connected with a first circuit component in the cleaner body 100, wherein the first circuit component includes, but is not limited to, a circuit board, a storage battery and a motor;

the second conductive plate 420 is connected to a second circuit component in the dust receptacle 200, the second circuit component including but not limited to a circuit board;

through first conducting strip 410 and second conducting strip 420 electric connection, can charge to the battery, need not additionally to realize charging to dust catcher main part 100 through the power cord connection again, can realize wireless charging.

Further, the first conductive sheet 410 and the second conductive sheet 420 may be conductive elastic sheets, which are in elastic contact with each other to make the contact more tight, or conductive contacts may be disposed on the first conductive sheet 410 and the second conductive sheet 420 to enhance the connection.

Specifically, as shown in fig. 8, at least the second conductive sheet 420 is of a spring sheet type structure, the mounting section 421 of the second conductive sheet 420 is fixed on the dust collecting base 200 and connected to the second circuit component inside, and the elastic section 422 of the second conductive sheet 420 is folded outward to form a contact portion, so as to be conveniently connected to the first conductive sheet 410.

Further, after the dust cleaning in the dust cup 140 is completed, the negative pressure assembly 230 stops operating; the storage battery of the cleaner body 100 is charged later.

Further, whether the dust in the dust cup 140 is completely cleaned or not can be judged through circuit control or circuit detection, and then the storage battery is charged;

optionally, the capacity of the dust cup 140 in the cleaner main body 100 is within a certain range, and the time required for completely cleaning the dust in the dust cup 140 can be calculated approximately by combining the power of the negative pressure assembly 230, which is defined as X seconds, so that when the cleaner main body 100 is mounted on the dust collecting base 200, the electrical trigger switch 250 is triggered to control the negative pressure assembly 230 to operate, and after the negative pressure assembly 230 operates for X seconds, the negative pressure assembly 230 is controlled to stop operating through the electrical circuit; after the negative pressure assembly 230 stops operating, the storage battery is charged through circuit control, and the power failure is automatically identified after charging is completed.

Alternatively, a sensor may be provided at the inlet of the dust collecting chamber 202 by way of sensor sensing, and may be a light sensor, which may recognize whether dust passes through, and when it is detected that dust passes through, the circuit controls the negative pressure assembly 230 to stop operating; then the storage battery is charged through circuit control, and power failure is automatically identified after charging is completed.

Through the structure, dust in the dust cup 140 can be rapidly cleaned, the dust cup 140 does not need to be detached in the cleaning process, any part is not needed to be detached, the dust in the dust cup 140 can be automatically cleaned only by installing the dust collector main body 100 on the dust collecting seat 200, the cleaning is automatically carried out after the cleaning is finished, the automatic detection power-off is carried out after the charging is finished, and the use is very convenient.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. Automatic collection dirt of vertical two unification dust collectors integrated configuration that charges includes: vertical dust catcher main part and collection dirt seat, dust catcher main part demountable installation on collection dirt seat, its characterized in that:

the dust collector main body is provided with a dust cup, and a dust cup door is arranged at a dust outlet of the dust cup;

the dust collecting seat is provided with an air inlet which is communicated with a dust collecting cavity in the dust collecting seat, and the dust collecting cavity is internally connected with a negative pressure component;

the dust collecting seat is provided with a door triggering structure, the door triggering structure triggers the dust cup door to rotate and open, and the air inlet can be communicated with the dust outlet; the dust collecting seat on be provided with electric trigger switch, dust catcher main part vertical install in it is spacing through limit structure during dust collecting seat, simultaneously the dust catcher main part triggers electric trigger switch controls the operation of negative pressure subassembly.

2. The automatic dust collection and charging combination structure of the upright two-in-one dust collector as claimed in claim 1, wherein: a conductive structure is arranged between the dust collector main body and the dust collecting seat.

3. The automatic dust collection and charging combination structure of the upright two-in-one dust collector as claimed in claim 2, wherein: the conductive structure includes: the first conducting strip is assembled on the dust collector main body and the second conducting strip is assembled on the dust collecting seat, and the first conducting strip is connected with a first circuit component in the dust collector main body; the second conducting strip is connected with a second circuit component in the dust collecting base; the first conducting strip is electrically connected with the second conducting strip when the dust collector body is arranged on the dust collecting base.

4. The automatic dust collection and charging combination structure of the upright two-in-one dust collector as claimed in claim 3, wherein: the first circuit component comprises a storage battery, and the dust collector main body is charged through the conductive structure and the dust collecting seat which are electrically connected.

5. The automatic dust collection and charging combination structure of the upright two-in-one dust collector as claimed in claim 1, wherein: the limit structure comprises: the main body buckle is arranged on the dust collector main body and is provided with a buckle groove with a downward opening, and the buckle body can be clamped into the buckle groove or separated from the buckle groove.

6. The automatic dust collection and charging combination structure of the upright two-in-one dust collector as claimed in claim 1, wherein: the upper edge of the dust cup door is rotatably connected to the dust collector main body or the dust cup through a rotating shaft, and a trigger part is arranged at the position, close to the rotating shaft, of the dust cup door; the door triggering structure is a flange arranged at the upper edge of the air inlet; the flange is abutted against the trigger part and pushes the dust cup door to rotate and open.

7. The automatic dust collection and charging combination structure of the upright two-in-one dust collector as claimed in claim 1, wherein: the dust cup door is smaller than the area of the air inlet, and enters the air inlet when being rotated and opened; the edge of the air inlet is provided with a sealing rib which protrudes outwards and is connected with the position of the dust outlet on the dust collector main body in a sealing way.

8. The automatic dust collection and charging combination structure of the upright two-in-one dust collector as claimed in claim 1, wherein: an air pipe is arranged between the air inlet and the dust collecting cavity in the dust collecting seat;

a dust collecting bag is arranged in the dust collecting cavity;

the negative pressure component is a fan component and is arranged below the dust collection cavity.

9. The automatic dust collection and charging combination structure of the vertical two-in-one dust collector as claimed in claim 1, wherein: the cleaner main body includes: the device comprises a main machine, a handle, a submachine and a floor brush, wherein the submachine is detachably arranged on the main machine; and the dust cup is arranged on the sub machine.

10. The automatic dust collection and charging combination structure of the vertical two-in-one vacuum cleaner according to claim 9, wherein: an assembly position for installing a dust collector main body is formed on the dust collecting seat, the transverse surface of the assembly position is provided with the electric trigger switch, and the vertical surface of the assembly position is provided with the air inlet; when the dust collector main body is vertically arranged on the dust collecting seat, the ground brush triggers the electric trigger switch.

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