CN223196012U - Charging stand for handheld vacuum cleaners - Google Patents

Abstract

The utility model discloses a charging stand for a handheld vacuum cleaner, wherein the handheld vacuum cleaner includes a handheld vacuum cleaner main unit with a rechargeable battery pack, and the charging stand includes a base configured to be engageable with the handheld vacuum cleaner main unit and a pair of charging docking terminals provided on the charging stand; a locking hook for retaining the handheld vacuum cleaner main unit on the base is provided on the base, and the locking hook is supported on the base so as to be movable in the up-down direction. When the vacuum cleaner main unit of the handheld vacuum cleaner is engaged with the base, the handheld vacuum cleaner main unit can be retained on the base by the locking hook. When the handheld vacuum cleaner main unit is accidentally subjected to external collision or vibration, the locking hook can move on the base in the up-down direction, thereby providing good shock absorption and buffering effects, and having a better fixing effect. The charging stand can adjust the distance between the locking hook and the pair of charging docking terminals, and can adapt to handheld vacuum cleaners of different sizes, models or brands, and has better versatility.

Description

Charging support for handheld dust collector

Technical Field

The utility model relates to the technical field of auxiliary tools of dust collectors, in particular to a charging bracket for a handheld dust collector.

Background

Hand-held cleaners are becoming a common cleaning tool in modern households because of their portability and practicality. Hand-held cleaners typically comprise a hand-held suction main unit, which typically comprises a main body with a handle, suction nozzle, filter unit, suction motor and rechargeable battery pack, and necessary suction accessories (e.g. flat suction nozzle, long suction nozzle, cleaning brush with connecting tube, connecting hose/connecting wand etc.), to which a user can attach different suction accessories for cleaning different surfaces to be cleaned, such as floors, sofa surfaces, tea table surfaces, walls etc. After long use, the user typically supports the handheld vacuum cleaner on a rechargeable hanger for recharging and houses the vacuum cleaner accessory on the rechargeable hanger. In the related art, a charging terminal and a fixed hook for hanging a handheld dust collection host are usually arranged on a chargeable hanging frame, and when the handheld dust collection host is hung on the fixed hook of the chargeable hanging frame, if the handheld dust collection host is not hung in place or accidentally subjected to external force collision or vibration during hanging, the handheld dust collection host and the fixed hook are easy to loose and fall from the chargeable hanging frame. Therefore, the traditional chargeable hanging rack adopts the fixed hanging hook to support the handheld dust collection host, is easily affected by vibration, external force collision and the like, and has an unsatisfactory fixing effect. Secondly, because the couple is fixed to be set up on chargeable stores pylon, the distance between fixed couple and the terminal that charges is fixed unchangeable in general, consequently when the handheld dust absorption host computer of different size models hangs chargeable stores pylon on, the charging portion of some handheld dust absorption host computers and the terminal that charges on the chargeable stores pylon probably appear the circumstances such as contact failure, consequently traditional chargeable stores pylon adopts fixed couple to support handheld dust absorption host computer, only can adapt to the handheld dust catcher of specific model, to the handheld dust catcher of different brands or models probably can not use, this commonality that has restricted chargeable stores pylon.

Disclosure of utility model

In order to solve the technical problems, the utility model aims to provide a charging bracket for a handheld dust collector, which has better fixing effect.

The utility model provides a charging bracket for a handheld dust collector, which comprises a handheld dust collection host machine with a rechargeable battery pack, wherein the charging bracket comprises a base body and a pair of charging butt terminals, the base body is configured to be capable of being connected with the handheld dust collection host machine, the pair of charging butt terminals are arranged on the charging bracket, a lock hook for keeping the handheld dust collection host machine on the base body is arranged on the base body, and the lock hook is supported on the base body in a manner of being capable of moving up and down.

According to one embodiment of the present utility model, a spring is disposed between the latch hook and the base.

According to one embodiment of the present utility model, a damping member is disposed between the latch hook and the base.

According to one embodiment of the utility model, the damping member comprises a damper, a shock absorber or a shock absorber.

According to one embodiment of the present utility model, the housing includes a rear side wall extending up and down, a pair of holding walls extending forward from a front side edge portion of the rear side wall, and a support wall extending forward from a front side edge portion of the rear side wall, the pair of holding walls being disposed adjacent to a top portion of the rear side wall and being opposed in a left-right direction, the support wall being adjacent to a bottom portion of the rear side wall, the pair of charging docking terminals being disposed on the rear side wall.

According to one embodiment of the utility model, the latch hook is located on the rear sidewall and above the pair of charging terminals.

According to one embodiment of the present utility model, the rear sidewall is provided with two or more screw mounting holes for fixedly mounting the charging stand on a wall.

According to one embodiment of the utility model, the charging stand further comprises a chassis configured to be supported on the ground and a pole located between the chassis and the base.

According to one embodiment of the utility model, the upright is provided with an accessory holder for supporting the accessory for the handheld dust collector.

According to one embodiment of the utility model, the chassis is provided with a battery compartment for receiving a replaceable rechargeable battery pack for the handheld vacuum cleaner.

Compared with the prior art, the utility model has the following beneficial effects:

The locking hook for holding the handheld dust collection host on the seat body is arranged on the seat body of the charging bracket, and the locking hook can be supported on the seat body in a vertically movable manner. When the dust collection host of the handheld dust collector is jointed on the seat body, the handheld dust collection host can be kept on the seat body through the lock hook, and when the handheld dust collection host is accidentally impacted or vibrated by external force, the lock hook can move on the seat body along the up-down direction, so that good shock absorption and buffering effects are provided, and a better fixing effect is achieved. Secondly, because the latch hook can keep the engagement of handheld dust absorption host computer and pedestal and can follow the upper and lower direction and be movable on the pedestal, consequently charge the distance that the support can adjust between latch hook and the butt joint terminal that charges, adapt to the handheld dust catcher of different sizes, models or brand, have better commonality.

Drawings

Fig. 1 is a perspective view of a hand-held vacuum cleaner of an embodiment of the present utility model in which a hand-held vacuum cleaner main body and a replaceable rechargeable battery pack are respectively received on a charging stand;

FIG. 2 is a cross-sectional view of the hand-held cleaner and charging stand shown in FIG. 1;

FIG. 3 is an enlarged view of a portion of the portion A shown in FIG. 2;

FIG. 4 is a perspective view of the handheld vacuum cleaner main unit shown in FIG. 1;

Fig. 5 is a perspective view of the charging stand shown in fig. 1;

fig. 6 is a cross-sectional view of the charging stand shown in fig. 5;

FIG. 7 is an enlarged view of a portion at B shown in FIG. 6;

Wherein the reference numerals are as follows:

100. charging bracket, 101, seat body, 102, charging butt-joint terminal, 103, lock hook, 104, spring, 105, back side wall, 106, clamping wall, 107, supporting wall, 108, screw thread mounting hole, 109, chassis, 110, upright pole, 111, accessory rack, 112, battery compartment, 113, sliding groove;

200. The dust collector comprises a hand-held dust collector, a hand-held dust collection host, a 202 replaceable rechargeable battery pack, 203, a suction nozzle, 204, a dust cup, 205, a cyclone separator, 206, a suction motor, 207, a battery module, 208, a handle, 209, a locking groove, 210 and a charging part.

Detailed Description

It is to be understood that, according to the technical solution of the present utility model, those skilled in the art may propose various alternative structural modes and implementation modes without changing the true spirit of the present utility model. Accordingly, the following detailed description and drawings are merely illustrative of the utility model and are not intended to be exhaustive or to limit the utility model to the precise form disclosed.

Referring to fig. 1 to 4, a charging stand 100 for a hand-held cleaner 200 is provided according to an embodiment of the present utility model. The hand-held cleaner 200 includes a hand-held cleaner main unit 201, a replaceable rechargeable battery pack 202 and some necessary cleaning accessories (not shown), and the charging stand 100 is used for charging the hand-held cleaner main unit 201 of the hand-held cleaner 200 supported by the charging stand 100 and for accommodating the cleaning accessories of the hand-held cleaner 200 on the charging stand 100. The charging stand 100 is also provided with a battery compartment 112 for receiving a replacement rechargeable battery pack 202 for the hand-held cleaner 200. Wherein, a charging accessory (such as a charging wire, a charging connector, a charging terminal, etc.) may be disposed in the battery compartment 112, so that the replacement rechargeable battery pack 202 can be charged when the replacement rechargeable battery pack 202 is placed in the battery compartment 112 for storage.

As shown in fig. 3 and 4, the hand-held suction main unit 201 of the hand-held cleaner 200 includes a suction nozzle 203, a dust cup 204, a cyclone 205, a suction motor 206, a battery module 207, and a handle 208. Wherein the suction nozzle 203 is configured to be adapted to suck dust on a surface to be cleaned. A cyclone 205 is provided in the dirt cup 204 and is configured to separate dirt and air from a dirt-laden airflow entering the dirt cup 204. The suction motor 206 is configured and adapted to generate a negative pressure air flow from the suction nozzle 203 into the dirt cup 204. The battery module 207 is configured to provide the required electrical power to the suction motor 206 and some necessary electrical control components, such as an electrical control board. The handle 208 allows a user to hold the handheld vacuum cleaner 201.

During cleaning operation, the handheld dust collection host 201 can be connected with cleaning accessories such as a dust collection hose, a dust collection hard tube, a cleaning brush with a dust collection tube and the like through the suction nozzle 203, so that the handheld dust collection host is suitable for cleaning different surfaces to be cleaned, such as floors, carpets, tile surfaces, sofa surfaces, wall surfaces and the like. The suction motor 206 generates a negative pressure air flow from the suction nozzle 203 into the dust cup 204, so that the dust-containing air flow on the surface to be cleaned is sucked, dust particles in the dust-containing air flow are separated from air by the cyclone 205 after the dust-containing air flow enters the dust cup 204, the separated dust particles are collected in the dust cup 204, and the separated air is pumped by the suction motor 206 and discharged to the external environment.

As shown in fig. 4, in order to facilitate the charging of the hand-held vacuum cleaner 201 when the hand-held vacuum cleaner is supported by the charging stand 100, a pair of charging portions 210 are provided on the hand-held vacuum cleaner 201, and the pair of charging portions 210 are electrode contacts electrically connected to the battery module 207. In other embodiments, the charging unit 210 may also be a charging interface, a charging plug, a magnetically-attracted charging coil, etc., which is not particularly limited.

In order to facilitate hanging and supporting the handheld dust collection main machine 201 on the charging stand 100, a locking groove 209 is provided on the handheld dust collection main machine 201. The lock groove 209 is located above the pair of charging portions 210.

As shown in fig. 5 to 7, the charging stand 100 includes a base 101, a pair of charging docking terminals 102, a latch hook 103, a chassis 109, and a pole 110. Wherein the chassis 109 is configured to be supported on the ground, and the upright 110 is located between the chassis 109 and the base 101. The upright pole 110 is provided with an accessory holder 111 for supporting an accessory for the hand cleaner 200. The lower end of the base 101 is provided with a plug-in connection part which is plugged with the upright rod 110, and the base 101 is plugged and supported at the upper end of the upright rod 110. The base 101 may be supported without the upright 110 and the chassis 109, and the base 101 may include a rear sidewall 105 extending in the up-down direction, and two threaded mounting holes 108 for fixedly mounting the charging stand 100 on a wall may be formed in the rear sidewall 105, and the base 101 of the charging stand 100 may be directly fixed on the building wall by fixing members such as screws and expansion bolts. In other embodiments, more than two screw mounting holes 108 may be provided, so that the base 101 may be more firmly fixed to the building wall, which is not particularly limited.

The base 101 further includes a pair of holding walls 106 formed extending forward from the front side edge portion of the rear side wall 105 and a support wall 107 extending forward from the front side edge portion of the rear side wall 105, the pair of holding walls 106 being close to the top of the rear side wall 105 and being disposed opposite in the left-right direction, the support wall 107 being close to the bottom of the rear side wall 105, and the pair of charging docking terminals 102 being arranged on the rear side wall 105. The latch hooks 103 are located on the rear side wall 105 and above the pair of charging docking terminals 102.

The base 101 is configured to be engageable with the handheld suction main unit 201 to support the handheld suction main unit 201 and to charge the handheld suction main unit 201. The lock hook 103 is for holding the hand-held vacuum cleaner main body 201 on the housing 101, and the lock hook 103 is supported on the housing 101 so as to be movable in the up-down direction.

In order to facilitate the latch hook 103 to move along the up-down direction, so that the latch hook 103 can elastically displace, so as to provide shock absorption and buffering when the handheld dust collection host 201 is hung on the latch hook 103 to support, the base 101 is provided with a sliding groove 113 extending along the up-down direction, the latch hook 103 is slidably matched in the sliding groove 113, and a spring 104 is arranged between the latch hook 103 and the base 101. In other embodiments, the spring 104 may be replaced with a damping member, such as a damper, shock absorber, without limitation.

Referring again to fig. 1 and 7, when the hand-held vacuum cleaner 200 is engaged with the housing 101, the hand-held vacuum cleaner 201 can be held by the latch 103 on the housing 101, the latch 103 can compress the spring 104 and move downward, and at the same time, a pair of charging portions 210 on the hand-held vacuum cleaner 201 are in electrical contact with a pair of charging docking terminals 102 on the housing 101. When the handheld dust collection host 201 is accidentally collided or vibrated by external force, the latch hook 103 can reciprocate on the seat 101 along the up-down direction, so that good shock absorption and buffering effects are provided, and a better fixing effect is achieved. Secondly, since the latch hook 103 can keep the engagement between the hand-held vacuum cleaner main body 201 and the base 101 and can move on the base 101 along the up-down direction, the charging stand 100 can adjust the distance between the latch hook 103 and the pair of charging docking terminals 102, and adapt to hand-held vacuum cleaners 200 of different sizes, models or brands, thereby having better versatility.

The technical scope of the present utility model is not limited to the above description, and those skilled in the art may make various changes and modifications to the above-described embodiments without departing from the technical spirit of the present utility model, and these changes and modifications should be included in the scope of the present utility model.

Claims (10)

1. A charging bracket for a handheld dust collector comprises a handheld dust collection host machine with a rechargeable battery pack, wherein the charging bracket comprises a base body which is configured to be capable of being connected with the handheld dust collection host machine and a pair of charging butt terminals arranged on the charging bracket, and the charging bracket is characterized in that a latch hook for keeping the handheld dust collection host machine on the base body is arranged on the base body, and the latch hook is supported on the base body in a manner capable of moving in the up-down direction.

2. The charging stand of claim 1, wherein a spring is disposed between the latch hook and the housing.

3. The charging stand of claim 1, wherein a damping member is disposed between the latch hook and the housing.

4. A charging stand according to claim 3, wherein the damping member comprises a damper, a shock absorber or a shock absorber.

5. The charging stand of claim 1, wherein the housing includes a rear side wall extending vertically, a pair of holding walls extending forward from a front side edge portion of the rear side wall, and a support wall extending forward from a front side edge portion of the rear side wall, the pair of holding walls being adjacent to a top portion of the rear side wall and being disposed opposite each other in a left-right direction, the support wall being adjacent to a bottom portion of the rear side wall, the pair of charging docking terminals being disposed on the rear side wall.

6. The charging stand of claim 5, wherein the latch hook is located on the rear sidewall and above the pair of charging terminals.

7. The charging stand of claim 5, wherein the rear sidewall is provided with two or more threaded mounting holes for fixedly mounting the charging stand to a wall.

8. The charging stand of claim 1, wherein the charging stand further comprises a chassis and a pole, the chassis is configured to be supported on the ground, and the upright is positioned between the chassis and the base.

9. The charging stand of claim 8, wherein the upright is provided with an accessory holder for supporting the accessory for the hand-held cleaner.

10. The charging stand of claim 8, wherein the chassis is provided with a battery compartment for receiving a replacement rechargeable battery pack for the hand-held vacuum cleaner.