CN214760878U - Dust collector storage device - Google Patents

Abstract

The utility model provides a dust catcher storage device to the realization is to accomodating of dust catcher, and saves space. This dust catcher storage device includes: support base, supporter and dust catcher bracket. One end of the support body is arranged on the support base, and the other end of the support body extends to the side departing from the support base; the dust collector bracket is detachably arranged at the other end of the supporting body, and a suspension supporting structure capable of suspending the dust collector is arranged on the dust collector bracket. The utility model discloses dust catcher storage device can be accomodate the dust catcher suspension, has reduced the ground occupancy, has saved the space, and the utility model discloses the service position of support is not injectd, and it is convenient to move, can place to arbitrary suitable position as required.

Description

Dust collector storage device

Technical Field

The utility model belongs to the technical field of electrical apparatus, especially, relate to a dust catcher storage device.

Background

The dust collector can be used for cleaning certain garbage with small mass, such as hair, paper scraps, powder and the like, and is a necessary cleaning tool at home. Along with people to the improvement of electrical apparatus experience degree, portable dust catcher more obtains the favor of many families, however because the dust absorption pipe of dust catcher is longer, if keep flat subaerial when accomodating, not only influence the family clean and tidy, make the people trip easily moreover, have the potential safety hazard, consequently need provide a dust catcher storage device and realize accomodating of dust catcher to save space.

SUMMERY OF THE UTILITY MODEL

In view of the above disadvantages of the prior art, an object of the present invention is to provide a dust collector storage device, which can store the dust collector and save space.

In order to achieve the above objects and other related objects, the present invention provides a dust collector storage device, which comprises: support base, supporter and dust catcher bracket. One end of the support body is arranged on the support base, and the other end of the support body extends to the side departing from the support base; the dust collector bracket is detachably arranged at the other end of the supporting body, and a suspension supporting structure capable of suspending the dust collector is arranged on the dust collector bracket.

The utility model discloses in a dust catcher storage device example, the dust catcher bracket includes bracket base and charging device, the bracket base with the connection can be dismantled to the charging device, it sets up to hang bearing structure charging device is last, charging device's electric energy output terminal is in the dust catcher hang to hang when bearing structure with the interface electricity that charges of dust catcher connects mutually.

The utility model discloses in dust catcher falls to ground support storage device example, charging device includes: the electronic device comprises a shell, a circuit board arranged in the shell, and an input part and an output part which are arranged on a wall body of the shell, wherein the input part and the output part are electrically connected with corresponding interfaces of the circuit board.

In an example of the floor stand storage device of the vacuum cleaner of the present invention, the output unit includes a plurality of output ports capable of supplying electric power to a plurality of devices.

In an example of the floor stand storage device of the vacuum cleaner, the housing includes a first housing, a second housing and a third housing, the second housing and the first housing are engaged to form a housing having an opening on a side wall, the third housing covers the opening, the hanging support structure includes a receiving groove formed in the third housing.

In an example of the vacuum cleaner storage apparatus of the present invention, the bracket base is mounted on the support body by a quick-insertion locking structure.

In an example of the vacuum cleaner storage apparatus of the present invention, the support body is oriented toward one end of the support base and is mounted on the support base through the quick-insertion locking structure.

The utility model discloses in a dust catcher storage device example, fast inserted locking structure includes inserted bar, plug bush and hasp, the inserted bar with the plug bush is pegged graft and is passed through along sharp guide structure the hasp locking.

The utility model discloses in a dust catcher storage device example, the hasp is installed on the inserted bar, be provided with the hasp hole on the plug bush, the hasp hole with the hasp phase-match, the hasp hole will the hasp exposes.

In an example of the vacuum cleaner storage apparatus of the present invention, the linear guide structure includes a protrusion provided on the insertion rod or the insertion sleeve and a groove provided on the insertion sleeve or the insertion rod, the groove and the protrusion are correspondingly matched and extend along a straight line.

In an example of the vacuum cleaner storage apparatus of the present invention, the charging device is mounted on the bracket base through a locking structure.

In an example of the vacuum cleaner storage apparatus of the present invention, the support is a retractable rod that can be locked.

The utility model discloses in dust catcher storage device example, the support base is the disc, the supporter install in one side of support base, the dust catcher when hanging the center of gravity along the extension line of vertical direction with the central axis of support base coincides.

The utility model discloses in dust catcher storage device an example, be provided with on the support base and place in subaerial ground bearing structure, ground bearing structure for set up in the support base deviates from the at least three stabilizer blade of dust catcher support side.

In an example of the vacuum cleaner storage apparatus of the present invention, the at least three support legs are circumferentially and evenly distributed and have an adjustable extending height.

The utility model discloses in dust catcher storage device example, the support base includes mounting disc, casing and balancing weight, the balancing weight is installed on the mounting disc, and be located the casing with in the cavity that the mounting disc encloses.

The utility model discloses in a dust catcher storage device example, dust catcher storage device still includes the annex clamp, annex clamp demountable installation be in on the supporter, be provided with an at least annex joint on the annex clamp.

In an example of the vacuum cleaner storage apparatus of the present invention, the accessory clamp includes two accessory connectors, the two accessory connectors are coaxially disposed and face away from each other, and the two accessory connectors and the interface of the vacuum cleaner have interchangeability.

In an example of the vacuum cleaner storage apparatus of the present invention, the accessory clamp includes a first elastic clip and a second elastic clip, which are disposed oppositely, and a connector connected to the first elastic clip and the second elastic clip, wherein the first elastic clip, the second elastic clip and the connector enclose a slot capable of being clamped on the support.

The utility model discloses in dust catcher storage device example, first elasticity card the second elasticity card with the position that the connector contacted with the supporter is provided with the joint curved surface, the joint curved surface with correspond the joint position supporter surface shape phase-match.

In an example of the vacuum cleaner storage apparatus of the present invention, the distance between the hanging support structure and the upper surface of the stand base is greater than the maximum body length of the vacuum cleaner.

The utility model discloses in dust catcher storage device an example, be provided with the handle on the fuselage of dust catcher, the handle deviates from one side of fuselage is provided with the base, and the dust catcher battery package is installed on the base, it is partly holding to hang bearing structure the base with the holding tank of dust catcher battery package.

To sum up, the utility model provides a dust catcher storage device can reliably accomodate the dust catcher through this storage device to can hang the dust catcher through this storage device, thereby realize the vertical accomodating of dust catcher, reduced the ground occupancy, saved the space, and the utility model discloses the use position of support is not injectd, and it is convenient to move, can place to arbitrary suitable position as required, can not harm ground and wall.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings 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 some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view illustrating an installation of a vacuum cleaner in an embodiment of a vacuum cleaner storage apparatus of the present invention;

FIG. 2 is a view showing the structure of an embodiment of the storage device of the vacuum cleaner of the present invention;

FIG. 3 is an exploded view of an embodiment of the storage device of the vacuum cleaner of the present invention;

fig. 4 is a schematic structural view of a dust collector bracket according to an embodiment of the dust collector storage device of the present invention;

FIG. 5 is a schematic structural view of a stand base in an embodiment of the storage device of the vacuum cleaner of the present invention;

FIG. 6 is a schematic structural view of an embodiment of a vacuum cleaner storage apparatus according to the present invention, in which a housing is removed from a stand base;

FIG. 7 is a side view of an embodiment of the storage device of the vacuum cleaner of the present invention;

FIG. 8 is a cross-sectional view of FIG. 7;

FIG. 9 is an enlarged view of a portion of the area I in FIG. 8;

FIG. 10 is a schematic view of an accessory clip according to an embodiment of the storage device of the present invention;

fig. 11 is a perspective view of a charging device in an embodiment of the storage device of the vacuum cleaner of the present invention;

fig. 12 is a perspective view of a part of a charging device in an embodiment of the storage device of the vacuum cleaner of the present invention;

fig. 13 is an exploded view of a charging device housing in an embodiment of the vacuum cleaner storage apparatus of the present invention;

fig. 14 is a first casing structure diagram of a charging device in an embodiment of the accommodating device of the vacuum cleaner of the present invention;

fig. 15 is a structural diagram of a secondary circuit board of a charging device in an embodiment of the accommodating device of the vacuum cleaner of the present invention;

fig. 16 is a partial internal structure view of a charging device in an embodiment of the accommodating device of the vacuum cleaner of the present invention;

fig. 17 is a schematic perspective view of a charging device in an embodiment of a vacuum cleaner storage apparatus of the present invention;

fig. 18 is a front view of a charging device in an embodiment of the accommodating device of a vacuum cleaner of the present invention;

fig. 19 is a schematic structural installation diagram of an output protection device of a charging device in an embodiment of the accommodating device of the vacuum cleaner of the present invention;

fig. 20 is a schematic structural view of an output protection device of a charging device in an embodiment of the accommodating device of a vacuum cleaner of the present invention;

FIG. 21 is a schematic structural view of the fixing portion in FIG. 20;

FIG. 22 is a schematic view of the output protector of FIG. 20 with the fixing portion removed;

FIG. 23 is a schematic view showing the structure of the sliding part shown in FIG. 22;

FIG. 24 is a schematic view of the first housing of FIG. 22;

FIG. 25 is a schematic view of the first housing of FIG. 22 at another angle;

fig. 26 is a third casing structure view of the charging device in an embodiment of the accommodating device of the vacuum cleaner of the present invention;

fig. 27 is another angle structure diagram of the third casing of the charging device in an embodiment of the accommodating device of the vacuum cleaner of the present invention;

fig. 28 is a schematic view of a locking structure in an embodiment of the accommodating device of a vacuum cleaner of the present invention;

fig. 29 is a schematic structural view of the first locking unit in the charging device according to an embodiment of the accommodating device of the vacuum cleaner of the present invention;

fig. 30 is a schematic bottom view of a first locking unit of a charging device in an embodiment of a vacuum cleaner storage apparatus of the present invention;

fig. 31 is a schematic structural view of a second locking unit of the charging device in the bracket base according to an embodiment of the accommodating device of the vacuum cleaner of the present invention;

FIG. 32 is a schematic view of the locking base of FIG. 30;

FIG. 33 is a schematic view of the locking cover of FIG. 30;

fig. 34 is a schematic structural view of a locking structure of a charging device in an embodiment of the storage device of the vacuum cleaner of the present invention;

fig. 35 is a schematic structural view of a locking structure of a charging device in an embodiment of the accommodating device of the vacuum cleaner of the present invention in a locked state;

fig. 36 is a schematic structural view of a locking structure of a charging device in an embodiment of the accommodating device of the vacuum cleaner in an unlocked state;

fig. 37 is a bottom view of the charging device in an embodiment of the accommodating device of the vacuum cleaner of the present invention;

fig. 38 is a view illustrating a scene that the charging device charges the battery pack using the first terminal and/or the second terminal according to an embodiment of the accommodating device of the vacuum cleaner of the present invention;

fig. 39 is a view illustrating a scene in which the charging device charges the battery pack using the third terminal according to an embodiment of the accommodating device of the vacuum cleaner of the present invention;

fig. 40 is a diagram illustrating a position of a battery pack terminal of the charging device in an embodiment of the storage device of the vacuum cleaner according to the present invention;

fig. 41 is a battery pack structure diagram of a charging device in an embodiment of the accommodating device of the vacuum cleaner of the present invention;

fig. 42 is a diagram showing the dimensions of a battery pack chute of a charging device according to an embodiment of the storage device of the present invention;

fig. 43 is a diagram showing the dimensions of a battery pack chute of a charging device according to an embodiment of the storage device of the present invention;

fig. 44 is a dimensional view of a charging device guide rail of a charging device in an embodiment of the storage device of the vacuum cleaner of the present invention;

fig. 45 is a dimension view of a charging device guide rail of a charging device in an embodiment of the accommodating device of the vacuum cleaner of the present invention;

fig. 46 is a schematic structural view of a vacuum cleaner according to an embodiment of the accommodating apparatus of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Please refer to fig. 1 to 11, the utility model provides a dust collector storage device can hang up the dust collector along vertical direction through this storage device to realize the vertical of dust collector and accomodate, reduced the ground occupancy, saved the space, and the utility model discloses the service position of support is not injectd, and it is convenient to move, can place to arbitrary suitable position as required, can not harm ground and wall.

Referring to fig. 1 and 2, the vacuum cleaner housing apparatus 7 includes: a stand base 710, a support body 730, and a cleaner bracket 740. The support base is provided with a support structure which can be placed on the ground or a plane. One end of the support body 730 is mounted on the support base 710, the other end of the support body 730 extends away from the support base 710, and the extending direction of the support body 730 is not limited, and the support body 730 can extend vertically upwards or can extend upwards in a wave-shaped bending manner. The dust collector bracket 740 is detachably mounted at one end of the supporting body 730 departing from the bracket base 710, and is provided with a hanging support structure 741 capable of hanging the dust collector 6, the hanging support structure 741 in the present invention can be any suitable structure capable of stably hanging the dust collector 6, such as a bracket structure matched with the whole head of the dust collector, or other hooking structures matched with the dust collector 6, which is not illustrated herein.

Referring to fig. 11, the vacuum cleaner bracket 740 of the present invention may be any suitable structure capable of stably supporting the vacuum cleaner 6, and in view of integration of functions, in an embodiment of the present invention, the vacuum cleaner bracket 740 includes a bracket base 520 and a charging device 1, the bracket base 520 is detachably connected to the charging device 1, the hanging support structure is a receiving groove 134 disposed on the charging device 1, and the power output terminal (i.e., the fourth terminal 206 and the fourth terminal interface 138) of the charging device 1 is electrically connected to the charging interface (i.e., the fourth interface 66 in fig. 46) of the vacuum cleaner 6 when the vacuum cleaner 6 is hung to the receiving groove 134. In another embodiment of the present invention, the dust collector bracket 740 has substantially the same shape as the charging device 1, but does not have a corresponding charging structure and a charging function therein.

Referring to fig. 3 and 7, the installation manner of the support body 730 on the support base 710 of the present invention is not limited, and the support body 730 can be fixedly connected as an integral body, or can be provided with an installation groove with a sufficient depth and matched with the support body 730, and the support body 730 is inserted into the installation groove, in this embodiment, one end of the support body 730 facing the support base 710 is installed on the support base 710 through the first quick-insertion locking structure 750. The first quick-insertion locking structure 750 may be similar to the structure for quick-insertion locking of a cleaner head and a cleaning pipe, please refer to FIG. 3, in this embodiment, the first quick-insertion locking structure 750 includes a first insertion rod 713, a first insertion sleeve 734 and a first locking catch (not shown), the lower portion of the first insertion rod 713 is disposed on the support base 710, and extends upward, the first latch is disposed on the first rod 713, the first sleeve 734 is disposed on the end of the support body 730 facing the bracket base 710, the first plug 734 is provided with a first locking hole 731, the first locking hole 731 is matched with the first locking buckle, after plugging and locking, the first locking buckle is exposed out of the first locking buckle via the first locking hole 731, a linear guide (not shown) is disposed between the first rod 713 and the first sleeve 734, the first rod 713 and the first sleeve are inserted along the linear guide structure and locked by the first locking catch. It should be noted that, the first lock of the present invention can be any suitable lock for realizing the insertion locking of the insertion rod and the insertion sleeve, and can be purchased through general commercial means, which is not described herein again.

Referring to fig. 3 and 7 to 11, the mounting manner of the bracket base 520 of the vacuum cleaner bracket 740 on the supporting body 730 can be any suitable detachable connection manner, for example, a mounting groove with a sufficient depth and matching with the supporting body 730 can be formed on the bracket base 520, and the supporting body 730 is inserted into the mounting groove. In an embodiment of the present invention, the supporting body 730 is mounted on the bracket base 520 by a second quick-insertion locking structure 760 toward one end of the bracket base 520. The second quick-insertion locking structure 760 may be similar to the structure for quick-insertion locking of a cleaner head to a cleaning conduit, in this embodiment, the second quick-insertion locking structure 760 includes a second insertion rod 742, a second insertion sleeve 735, and a second lock 761, the second insertion rod 742 is disposed on the bracket base 520, and extends downward, the second lock 761 is disposed on the second rod 742, the second socket 735 is disposed at an end of the supporting body 730 facing the bracket base 520, the second plug 735 is provided with a second lock hole 732, the second lock hole 732 matches with the second lock 761, the second button hole exposes the second lock 761, a linear guide structure (not shown) is provided between the second rod 742 and the second socket, the second plug rod 742 and the second plug bush are inserted along a linear guide structure and locked by the second lock 761. The utility model discloses the quick installation or the dismantlement of supporter 730 and bracket base, bracket base can be realized to the quick mortise lock structure between well supporter 730 and bracket base and the bracket base, can reduce the transportation space, also can purchase the accessory alone when damaging and change, can practice thrift the cost. It should be noted that the second lock 761 of the present invention can be any suitable lock for realizing the insertion locking of the insert rod and the insert sleeve, and can be purchased through general commercial means, which is not described herein again.

The utility model provides a straight line guide structure can be for can guiding inserted bar and plug bush along all structures of sharp location grafting the utility model relates to an embodiment, straight line guide structure including set up in protruding (not shown in the drawing) on the plug bush inner wall with correspond set up in recess (not shown in the drawing) on the inserted bar outside, the recess with protruding correspondence matches and extends along the straight line. However, in another embodiment of the present invention, the linear guiding structure includes a protrusion disposed on the outer wall of the insertion rod and a groove disposed on the inner wall of the insertion sleeve, and the groove and the protrusion are correspondingly matched and extend along a straight line. The linear guide structure facilitates quick positioning between the support body 730 and the carriage base 520, and between the support body 730 and the support base 710, and provides for locking of the latch.

Referring to fig. 1 to 2, in the present invention, the supporting body 730 can be any suitable structure capable of mounting a dust collector bracket 740 and stably supporting the whole dust collector 6, in an embodiment of the present invention, the supporting body 730 is a non-retractable rod-shaped structure, and in another embodiment of the present invention, the supporting body 730 is a retractable rod capable of being locked. The telescopic rod can be extended or shortened according to the needs, so that the use is convenient, and the storage or transportation space can be saved. It should be noted that, the utility model provides a telescopic link can be for having all suitable telescopic link structures that can realize flexible and locking now to can acquire through general commercial means, no longer describe herein.

Referring to fig. 5 and 6, the shape and structure of the middle bracket base 710 of the present invention are not limited, and may be various structures as long as the middle bracket base has enough weight and can be stably placed on the ground, in an embodiment of the present invention, in order to increase the stability of the storage device, the bracket base 710 includes a mounting plate 711, a housing 712 and a weight block 714, and the weight block 714 is mounted on the mounting plate 711 and is located in a cavity surrounded by the housing 712 and the mounting plate 711. The utility model relates to an embodiment, the support base is the disc, and the support base of disc can reduce the bruise risk that the support base exists to operating personnel foot to a certain extent. The mounting position of the support 730 on the stand base is not limited as long as the support can be stably supported, and in this embodiment, the support 730 is preferably mounted on the side of the central axis of the stand base 710, and the extension line of the gravity center of the vacuum cleaner 6 in the vertical direction when suspended coincides with the central axis of the stand base 710. The arrangement mode can increase the supporting stability of the storage device and can prevent instability caused by overhigh erection of the dust collector 6.

Referring to fig. 6, the structure of the supporting structure on the bracket base 710 of the present invention is not limited, and may be, for example, a plane disposed on the bracket base 710, a convex portion integrated with the bracket base 710 and protruding to a side surface of the bracket base 710 departing from the supporting body 730, or an independent supporting leg, and is detachably mounted on the bracket base. Preferably, in this embodiment, the supporting structure is at least three support legs 715 disposed on a side of the bracket base facing away from the cleaner bracket 740, and the at least three support legs 715 are uniformly distributed along a circumference and have adjustable extending heights. The adjustable support feet 715 can adjust the extending height of the support feet 715 according to the flatness of the ground, thereby ensuring the stability of the support. In other embodiments, the support foot 715 is a roller that can be locked, and when the roller is unlocked, the roller can push the dust collector container 7 to move, and when the roller is moved into position, the roller can be locked, so as to ensure the stability of the dust collector container 7. It should be noted that the lockable roller is commercially available, and will not be described herein.

Referring to fig. 1, in an embodiment of the present invention, the supporting body 730 is a non-retractable rod-shaped structure, in order to ensure that the vacuum cleaner 6 can still be suspended on the vacuum cleaner bracket 740 after various types of vacuum cleaning heads are installed, and a distance from the suspended supporting structure 741 on the vacuum cleaner bracket 740 to the upper surface of the bracket base is greater than a maximum body length of the vacuum cleaner 6.

Referring to fig. 2, 3 and 10, in an embodiment of the present invention, the vacuum cleaner storage apparatus 7 further includes an accessory clip 720, the accessory clip 720 is detachably mounted on the support body 730, and the accessory clip 720 is provided with at least one accessory connector. In an embodiment of the present invention, the accessory clamp 720 includes two accessory connectors, namely a first accessory connector 724 and a second accessory connector 725, the two accessory connectors are coaxially disposed, and the orientations of the two accessory connectors are deviated from each other, one is deviated from the ground and the other is deviated from the ground, and the axes of the two accessory connectors are parallel to the extending direction of the supporting body 730. It should be noted that the two accessory connectors are the same in structure and interchangeable with the interface of the vacuum cleaner 6, and the accessory connectors are used for installing other types of suction heads of the vacuum cleaner 6. The connector form can be the common connector form of the existing dust collector 6, and the details are not repeated.

Referring to fig. 10, in an embodiment of the vacuum cleaner accommodating apparatus 7 of the present invention, the accessory clamp 720 includes a first elastic clamping piece 721 and a second elastic clamping piece 722 that are oppositely disposed, and a connecting body 723 that connects the first elastic clamping piece 721 and the second elastic clamping piece 722, wherein the first elastic clamping piece 721, the second elastic clamping piece 722 and the connecting body 723 form a clamping groove that can be clamped on the supporting body 730. The first elastic clamping piece 721, the second elastic clamping piece 722 and the connecting body 723 are provided with clamping curved surfaces 726 at positions where the supporting body 730 contacts, and the clamping curved surfaces 726 match with the surface shape of the supporting body 730 corresponding to the clamping positions.

Referring to fig. 11 and 46, in an embodiment of the present invention, a handle 612 is disposed on the body of the vacuum cleaner 6, a base 613 is disposed on a side of the handle 612 away from the body of the vacuum cleaner 6, the battery pack 3 of the vacuum cleaner is mounted on the base 613, the hanging support structure 741 is a holding groove 134 capable of partially holding the base 613 and the battery pack 3 of the vacuum cleaner, and for increasing stability, a shape of the holding groove matches a shape of a side of the base facing the suction inlet of the vacuum cleaner 6 and a shape of a side of the battery of the vacuum cleaner 6 facing the suction inlet of the vacuum cleaner.

The utility model discloses in as long as can realize the function of charging to the dust catcher, charging device 1's structure does not do the injeciton. Referring to fig. 11, in an embodiment of the present invention, a charging device 1 is provided to convert an ac power into a required specific voltage. The general charging device 1 can only output a single voltage and can only supply power to a specific electronic device at the same time. The utility model provides a pair of charging device 1 can export multiple voltage simultaneously, can not only charge for specific dust catcher 6 and battery package 3, can also charge for comparatively common electronic equipment, for example panel and computer etc..

Referring to fig. 11 to 16, the charging device 1 includes a housing 10, a circuit board 208 disposed in a cavity of the housing 10, and an input portion and an output portion disposed on a wall of the housing 10, wherein the input portion and the output portion are electrically connected to corresponding interfaces of the circuit board 208. The output/input end of the circuit board 208 is provided with a plurality of terminals, the housing 10 is provided with a plurality of sockets corresponding to the terminals, and the terminals pass through the sockets on the housing 10 to the outside of the housing 10, thereby forming corresponding input and output portions. The utility model discloses an embodiment the output portion includes a plurality of output interfaces that can provide the electric energy for multiple equipment, for example the dust catcher charge interface, the dull and stereotyped interface that charges, cell-phone charge interface etc. when needs charge/discharge to electronic equipment, electronic equipment's interface (charge interface/discharge interface) and circuit board 208's terminal electric connection realize charging/discharging to electronic equipment, or charge circuit board 208. The electronic device in the present application includes, but is not limited to, a vacuum cleaner 6, a battery pack 3, a mobile phone, a tablet, a computer, and other electronic devices.

Referring to fig. 11 to 13, in an embodiment of the present invention, the housing 10 includes a first housing 110, a second housing 120, and a third housing 130. The first casing 110 and the second casing 120 are fastened to form an accommodating cavity with a first opening 101 on one side, the third casing 130 is fastened on the first opening 101, and then the first casing 110, the second casing 120 and the third casing 130 form a closed accommodating cavity, and an accommodating groove 134 is further formed in the third casing 130 for accommodating electronic equipment or a battery pack. In the present invention, the housing 10 is made of a non-conductive material, such as a hard plastic, and may be made of other non-conductive materials. In a specific embodiment of the present invention, the housing 10 is made of Acrylonitrile Butadiene Styrene (ABS), which has the characteristics of excellent impact resistance, heat resistance, low temperature resistance, chemical resistance, electrical performance, easy processing, stable product size, good surface gloss, and the like, and is easy to coat, color, and perform secondary processing. In the case 10 made of the material, the weight of the first shell 110 is, for example, 80 to 85 g, preferably 85 g; the weight of the second shell 120 is, for example, 70 to 75 g, preferably 73 g; the weight of the third casing 130 is, for example, 120 to 125 g, preferably 120 g.

Referring to fig. 11 to 13, in an embodiment of the present invention, the housing 10 has a square structure with a gap 102, and the gap 102 is provided with a receiving groove 134, the square structure is, for example, a right trapezoid, and the gap 102 is located at a connection between a longer bottom side and a bevel side of the right trapezoid.

Specifically, referring to fig. 11 to 14, in the present embodiment, the second housing 120 has the same shape as the first housing 110, and has a bottom wall with a concave portion corresponding to the notch 102, and the notch 102 is located at the connection between the longer bottom side and the oblique side of the right trapezoid. A plurality of clamping columns 121 (or clamping points 111) are arranged in the concave part of the second shell 120, a plurality of clamping points 111 (or clamping columns 121) are arranged in the concave part of the first shell 110, the first shell 110 and the second shell 120 are clamped together through the clamping columns 121 and the clamping points 111 to form the shell 10 with a first opening 101, and the first opening 101 is positioned on the side wall of the shell 10 in a right trapezoid shape and is positioned on the side wall with the shorter bottom side and the oblique side; the third casing 130 covers the first opening 101 and the notch 102 of the outer casing 10, and the third casing 130 is provided with a plurality of annular connecting members 131, the positions of which are arranged corresponding to the clamping columns 121/clamping points 111, when the clamping columns 121 and the clamping points 111 are clamped, the clamping columns 121 and the clamping points 111 pass through the connecting members 131, and the third casing 130 is fixedly connected to the first casing 110 and the second casing 120, so as to form the outer casing 10 with a receiving groove 134.

Referring to fig. 11 to 16, in an embodiment of the present invention, the charging device 11 provided by the present invention has a plurality of output portions, the output portions include a first output portion, a second output portion and a third output portion, the first output portion includes a first terminal 203 and a first terminal interface 113, the second output portion includes a second terminal 204 and a second terminal interface 114, the third output portion includes an output portion 205 and a second opening 115, and the output portion 205 includes a plurality of terminals.

Specifically, referring to fig. 11 to 16, in an embodiment of the present invention, the circuit board includes a main circuit board 208 and an auxiliary circuit board 200. Specifically, in the accommodation cavity formed by the housing 10 and on the side close to the sliding portion 301, there is provided a main circuit board 208, which may be fixed to the first case 110 by a non-conductive bolt. In the accommodating cavity formed by the housing 10, a secondary circuit board 200 is further disposed, the secondary circuit board 200 is electrically connected to the primary circuit board 208, and the secondary circuit board 200 includes a first secondary circuit board 201 and a plurality of second secondary circuit boards 202. Specifically, the first sub circuit board 201 is located inside the casing 10 and is disposed parallel to the first casing 110; one ends of a plurality of second sub circuit boards 202 are fixed on the first sub circuit board 201, and the second sub circuit boards 202 are arranged perpendicularly to the first sub circuit board 201. In this embodiment, the number of the second sub-circuit boards 202 is, for example, 4, some of the first sub-circuit boards 201 are electrically connected to the plurality of first terminals 203, and other first sub-circuit boards 201 are electrically connected to the second terminals 204. In the present embodiment, for example, 3 first sub circuit boards 201 close to the receiving groove 134 are used for electrically connecting the first terminals 203, and for example, 1 first sub circuit board 201 far from the receiving groove 134 is used for electrically connecting the second terminals 204. In this embodiment, the circuit board is made of a non-conductive material, such as rigid plastic. The circuit board is provided with a charging conversion circuit which converts alternating current or voltage of the battery pack into required voltage to charge various electronic devices. The power of the circuit board provided by the invention can be 5W-400W.

Referring to fig. 11 to 15, in an embodiment of the present invention, a cover plate 112 is disposed on the first housing 110, and is located below the receiving groove 134 and higher than the surface of the first housing 110. The cover plate 112 is fixed on the first housing 110 and covers the plurality of first terminals 203 and the plurality of second terminals 204; a plurality of terminal interfaces are also provided on the cover plate 112 to allow the first and second terminals 203 and 204 to pass through. Specifically, the through hole of the cover plate 112 includes a plurality of first terminal interfaces 113, and the plurality of first terminal interfaces 113 are disposed on the cover plate 112 side by side. In the embodiment, the direction of the first opening 101 of the receiving cavity 134 is defined as the upper direction, the plurality of first terminal interfaces 113 are located below the receiving cavity 134, and the plurality of first terminal interfaces 113 are arranged side by side from the top to the bottom, and the number of the first terminal interfaces 113 is, for example, 3. In the present embodiment, the plurality of first terminal interfaces 113 provide channels for the plurality of first terminals 203, and the size and shape of the first terminal interfaces 113 are adapted to the first terminals 203, so as to allow the first terminals 203 to pass through the first terminal interfaces 113, and the number of the first terminals 203 is the same as that of the first terminal interfaces 113, for example, 3. The first terminal 203 provided by the invention is, for example, a type-c quick charging voltage output terminal, each first terminal 203 can independently output voltage, the output power of the first terminal 203 can be in a range of 5W-55W, and the output current of the first terminal 203 can be in a range of 1A-10A.

Further, referring to fig. 11 to fig. 15, the cover plate 112 is further provided with a second terminal interface 114, in this embodiment, the second terminal interface 114 is located below the receiving groove 134, the second terminal interface 114 is arranged side by side with the plurality of first terminal interfaces 113, and the number of the second terminal interfaces 114 is, for example, 1. In the present embodiment, the second terminal interface 114 provides a channel for the second terminal 204, and the size and shape of the second terminal interface 114 are adapted to the second terminal 204, allowing the second terminal 204 to pass through the second terminal interface 114. The second terminal 204 provided by the present invention is, for example, a Universal Serial Bus (USB) voltage output terminal, the output power range of the second terminal 204 may be 5W to 55W, and the output current range of the second terminal 204 may be 1A to 10A.

Referring to fig. 11, 14 and 16, the first housing 110 is further provided with a second opening 115, in this embodiment, when the charging device 1 is vertically placed (the opening of the receiving groove 134 faces upward), the second opening 115 and the second terminal interface 114 on the cover plate 112 are located on the same horizontal plane. The second opening 115 provides a passage for the output part 205, the output part 205 charges the battery pack 3 or receives discharge of the battery pack 3, the output power of the output part 205 may range from 10W to 200W, and the output current of the output part 205 may range from 0.5A to 10A. When the charging device 1 is not connected to an external power source, the battery pack 3 may be connected to the output portion 205, and a voltage input is provided to the circuit board through the output portion 205, and a voltage output is provided to the first terminal 203, the second terminal 204, or the fourth terminal 206 through a charge conversion circuit on the circuit board.

Specifically, referring to fig. 11 and 14, in the present embodiment, the output portion 205 is an exposed metal terminal, and in order to ensure the safety of the operation, an output protection device 300 is disposed at the second opening 115 for ensuring that the output portion 205 is covered when there is no electronic device on the output portion 205.

Referring to fig. 1, 14, and 17 to 25, an output protection device 300 is provided outside the housing 10, so that the third output portion is exposed when the battery pack 3 is charged, and the third output portion is covered by the output protection device 300 when the battery pack is not charged. Specifically, when the battery pack 3 needs to be charged, the charging interface of the battery pack 3 is electrically connected to the output portion 205, so as to charge the battery pack 3. When the battery pack 3 is placed in the concave portion 320, the output portion 205 is exposed, the charging device 1 is connected with the battery pack 3 to charge the battery pack 3, after charging is completed, the battery pack 3 is disconnected from the output portion 205, the battery pack 3 is taken out of the concave portion 320, the output portion 205 is covered, safety of the charging device 1 is greatly improved, and convenience in use is also greatly improved.

Referring to fig. 17 to fig. 25, an output protection device 300 according to an embodiment of the present invention includes: the sliding part 301 is arranged between the fixed part 307 and the first shell 110, the sliding part 301 is allowed to slide between a first position and a second position, one end of the output part 205 sequentially penetrates through the fixed part 307, the sliding part 301 and the first shell 110 and is exposed out of the first shell 110, when the sliding part 301 is located at the first position relative to the fixed part 307, the sliding part 301 covers the output part 205, and when the sliding part 301 is located at the second position relative to the fixed part 307, the output part 205 at least partially exposes out of the sliding part 301.

Referring to fig. 17 to 25, in some embodiments, the first casing 110 may be provided with a second opening 115, and one end of the output portion 205 sequentially passes through the fixing portion 307, the sliding portion 301 and the second opening 115 of the first casing 110 to be exposed outside the first casing 110.

Referring to fig. 13, 22, 24 and 25, in some embodiments, a plurality of first grooves 302 may be formed in the inner side of the first casing 110, and the first grooves 302 extend along the sliding direction of the sliding portion 301. In this embodiment, two first grooves 302 are disposed on the inner side of the first housing 110, the two first grooves 302 are located on one side of the second opening 115, in this embodiment, the two first grooves 302 are located above the second opening 115, and the two first grooves 302 are parallel to each other and have the same length.

Referring to fig. 23 to 25, the sliding portion 301 is bent toward the second opening 115 to form a sliding protrusion 304 matching with the second opening 115 at a position close to the second opening 115, the sliding protrusion 304 is inserted into the second opening 115 and allows the sliding protrusion 304 to slide in the second opening 115, and the sliding protrusion 304 slides in the second opening 115 to cover or expose the output portion 205

Referring to fig. 23 to fig. 25, in some embodiments, a plurality of sliding columns 309 perpendicular to the plane of the sliding portion 301 are disposed on a side surface of the sliding portion 301 facing away from the sliding protrusion 304, and the sliding columns 309 are disposed on a side of the sliding portion 301 away from the sliding protrusion 304. In this embodiment, for example, two sliding columns 309 may be disposed on the sliding portion 301, and the two sliding columns 309 may be respectively located at two sides of the second opening 115.

Referring to fig. 23, in some embodiments, a plurality of L-shaped slits 314 are formed at a side of the sliding protrusion 304 close to the sliding column 309, one side of the L-shaped slits 314 is located on the sliding protrusion 304, and the other side is located on the plane of the sliding portion, and the L-shaped slits 314 allow the output terminals to pass through and be exposed.

Referring to fig. 23 and 25, in some embodiments, a plurality of first ribs 303 are disposed on a side of the sliding portion 301 facing the first housing 110, and the first ribs 303 are matched with the first grooves 302 to allow the first ribs 303 to slide in the first grooves 302. In this embodiment, two first protruding ribs 303 parallel to each other and having the same length are disposed on the sliding portion 301, and the first protruding ribs 303 are matched with the first grooves 302 to allow the first protruding ribs 303 to slide in the first grooves 302.

Referring to fig. 21 to 25, in some embodiments, the fixing portion 307 is provided with at least one first through hole 308, the first through hole 308 is in a strip shape and extends along the sliding direction of the sliding portion 301, in this embodiment, the fixing portion 307 is provided with, for example, two first through holes 308, and the two first through holes 308 are respectively located at two sides of the second opening 115 and correspond to positions of the sliding column 309. The sliding column 309 can pass through the corresponding first through hole 308, and the sliding column 309 can move along the extending direction of the first through hole 308, so as to slide the sliding portion 301 between the first position and the second position, specifically, when the sliding column 309 is located at an end of the first through hole 308 far from the output portion 205, it indicates that the sliding portion 301 is located at the first position relative to the fixing portion 307, and when the sliding column 309 is located at an end of the first through hole 308 near the output portion 205, it indicates that the sliding portion 301 is located at the second position relative to the fixing portion 307.

Referring to fig. 20 to 22, in some embodiments, a plane of the first through hole 308 protrudes from a plane of the fixing portion 307, and the plane of the first through hole 308 is located on a side of the fixing portion 307 departing from the sliding portion 301.

Referring to fig. 20 and 21, in some embodiments, a plurality of fixing members 315 are disposed on a side of the fixing portion 307 away from the sliding portion 301, and the fixing members 315 are located between the output portion 205 and the first through hole 308. In this embodiment, two T-shaped fixing members 315 are disposed on the fixing portion 307, and each T-shaped fixing member 315 is correspondingly disposed between one first through hole 308 and the output portion 205.

Referring to fig. 20 to 23, in some embodiments, an elastic member 310 is disposed between the sliding portion 301 and the fixing portion 307, and the elastic member 310 may be, for example, a spring or other element capable of achieving stretching and compressing functions, specifically, in this embodiment, one end of the elastic member 310 is sleeved on the fixing member 315, and the other end of the elastic member 310 abuts against the sliding column 309.

Referring to fig. 24, in some embodiments, a plurality of second protruding ribs 312 are disposed on a side of the sliding portion 301 away from the sliding protrusion 304, in this embodiment, for example, two second protruding ribs 312 are disposed on the sliding portion 301, the two second protruding ribs 312 are parallel to each other, and the two second protruding ribs 312 are respectively disposed on two sides of the sliding column 309.

Referring to fig. 13, fig. 22 and fig. 24, in some embodiments, a plurality of second grooves 311 are disposed on a side of the fixing portion 307 adjacent to the sliding portion 301, the second grooves 311 extend along the sliding direction of the sliding portion 301, and the second ribs 312 are matched with the second grooves 311 to allow the second ribs 312 to slide in the second grooves 311. In this embodiment, the fixing portion 307 is provided with, for example, 2 second grooves 311 disconnected from the middle, and in other embodiments, the number of the second grooves 311 and the second ribs 312 may be other values.

Referring to fig. 1 to 25, in use, the battery pack 3 slides into the concave portion 320 from the guide rail 116 by an external force, and contacts and covers the sliding protrusion 304 of the output portion 205, the sliding column 309 is driven by the battery pack 3 to slide in the first through hole 308 in the direction of the output portion 205 in the process of pressing down the sliding protrusion 304, the sliding portion 301 slides relative to the first casing and the fixing portion 307 through the cooperation between the first concave groove 302 and the first convex rib 303 and the cooperation between the second concave groove 311 and the second convex rib 312, so that the elastic member 310 is converted from the initial state to the compressed state, at this time, the sliding portion 301 moves from the first position to the second position relative to the fixing portion 307, and when the sliding portion 301 moves to the second position, the output portion 205 exposes the sliding protrusion 304. When the battery pack 3 is separated from the concave portion 320 by the guide rail 116 through an external force, the elastic member 310 is gradually restored from the compressed state to the initial state, and drives the sliding column 309 to slide in the first through hole 308 in a direction away from the output portion 205, and the sliding portion 301 slides relative to the first housing 110 and the fixing portion 307 through the cooperation between the first groove 302 and the first protruding rib 303, and the second groove 311 and the second protruding rib 312, until the sliding portion 301 moves from the second position to the first position, and when the sliding portion 301 moves to the first position, the sliding protrusion 304 covers the output portion 205.

Referring to fig. 11, 13 and 26, in an embodiment of the present invention, a fourth output portion is further disposed on the third casing 130, and the fourth output portion includes a fourth terminal 206 and a fourth terminal interface 138. Specifically, the third housing 130 includes a first plane 132, a second plane 133 and a receiving groove 134, the first plane 132 is smoothly connected to one side of the second plane 133, and the other side of the second plane 133 is connected to an outer sidewall of the receiving groove 134; the first flat surface 132 covers the first opening 101 on the shorter bottom side of the outer case 10, the second flat surface 133 covers the first opening 101 on the oblique side of the outer case 10, and the receiving groove 134 is placed on the notch 102 of the outer case 10. In the present embodiment, the first plane 132 and the second plane 133 are disposed at a first angle, that is, the shorter bottom edge and the oblique edge of the housing 10 are disposed at a first angle, which is, for example, in the range of 90 to 145 °, and preferably, the first angle is set to 120 °. When the first plane 132 and the second plane 133 are disposed at a first angle, the vacuum cleaner 6 according to the present invention is compatible with the battery pack 3 of the vacuum cleaner 6. The first plane 132, the second plane 133 and the receiving groove 134 of the third housing 130 can be integrally formed, or can be fixed together by welding or fastening.

Referring to fig. 11, in an embodiment of the present invention, a rubber pad 141 is disposed on the first plane 132, and is located on a side of the first plane 132 away from the second plane 133, and the rubber pad 141 is higher than the first plane 132, when the charging device 1 provided by the present invention is used to charge the dust collector 6, the rubber pad 141 provides a buffering force to prevent the dust collector 6 from colliding with the charging device 1 to cause damage. The material of the rubber pad 141 is, for example, Thermoplastic polyurethane elastomer (TPU).

Referring to fig. 1 and 26, in an embodiment of the present invention, a groove 137 is disposed on the second plane 133 along the direction of the bevel edge of the housing 10, and the depth of the groove 137 is adapted to the electronic device configured to be engaged with the electronic device to be charged, in this embodiment, the electronic device is the dust collector 6. Referring to fig. 2 and 7, a plurality of fourth terminal interfaces 138 are disposed on the groove 137 of the second plane 133 and on a side close to the receiving groove 134, the fourth terminal 206 passes through the fourth terminal interfaces 138 and is exposed on the second plane 133, the fourth terminal 206 is a dedicated terminal of the vacuum cleaner 6 for charging the dedicated vacuum cleaner 6, the output power of the fourth terminal 206 may range from 10W to 200W, and the output current of the fourth terminal 206 may range from 0.5A to 10A. In the present embodiment, the number of the fourth terminal interfaces 138 is, for example, 3, and the fourth terminal interfaces are arranged in a regular triangle.

Referring to fig. 11 and 16, in an embodiment of the present invention, a display device 143 is disposed on the second plane 133 and on a side of the groove 137, and the display device 143 is disposed on a side close to the first casing 110 for displaying a position of the groove 137 in the dark; and the display device 143 is electrically connected to the main circuit board 208 for displaying the voltage state of the charging conversion circuit. In the present embodiment, the material of the display device 143 is, for example, Polycarbonate (PC).

Referring to fig. 11 to 13 and fig. 26, in an embodiment of the present invention, the receiving groove 134 is U-shaped, one side of the second plane 133 is fixed to an outer sidewall of the receiving groove 134, and the sidewall and the bottom wall of the receiving groove 134 connected to the second plane 133 are adapted to the notch 102. In this embodiment, the sidewall of the receiving groove 134 exceeds the height of the second plane 133, so as to maintain the stability of the electronic device placed in the receiving groove 134; to ensure that the side walls of the receiving groove 134 are smoothly connected with the second plane 133, a first recess 136 is provided on the side walls of the receiving groove 134 connected with the second plane 133. The size of holding tank 134 suits with the 3 sizes of battery package, and the both ends of holding tank 134 are provided with the first opening 135 of symmetry, and first opening 135 has first preset distance with the diapire of holding tank 134, and the lateral wall with holding tank 134 has the second preset distance, guarantees the battery package 3 of fixed dust catcher 6, and when needs charge for electronic equipment such as cell-phone, flat board, can place electronic equipment on first opening 135.

Further, please refer to fig. 11 to 13 together with fig. 26 to 27, in an embodiment of the present invention, a connecting member 131 is further disposed at the bottom of the accommodating groove 134, the connecting member 131 is annular, a through hole 122 is disposed on the notch 102 and corresponding to the connecting member 131, a locking post 121 for connecting the first casing 110 and the second casing 120 is disposed in the through hole 122, when the accommodating groove 134 covers the notch 102, the locking post 121 passes through the annular connecting member 131, and fixedly connects the third casing 130 to the first casing 110 and the second casing 120.

Referring to fig. 16 and 37, in an embodiment of the present invention, an input portion of the charging device is disposed at a bottom of the charging device 1, i.e. on a side surface opposite to the accommodating groove 134, the input portion includes a fifth terminal interface 123 and a fifth terminal 207, and a fifth terminal interface 123 is further disposed, the fifth terminal interface 123 allows the fifth terminal 207 to pass through, and the fifth terminal 207 is electrically connected to an input end of the circuit board and is a voltage input terminal for providing a power supply for the charging device 1. In the present embodiment, the range of the input voltage of the fifth terminal 207 may be, for example, 110V to 250V, and the fifth terminal 207 is an ac input.

In the present invention, the detachable mounting manner of the charging device 1 on the bracket base 520 is not limited, but the mounting is easy and convenient, please refer to fig. 28 to 36, in an embodiment of the present invention, the charging device 1 is mounted on the bracket base 520 through the locking structure 522. Referring to fig. 28 to 31, the locking structure 522 includes: the first locking unit 501 and the second locking unit 502 can be matched with each other, and the first locking unit 501 and the second locking unit 502 can be locked and separated from each other between the charging device 1 and the bracket base 520. Specifically, the first locking unit 501 is disposed on the charging device 1, and specifically, one side surface of the first locking unit 501 is fixed at the bottom of the charging device 1. A locking groove 503 is arranged in the first locking unit 501, the locking groove 503 is arranged on one side of the plurality of sliding ribs, and the locking groove 503 is located on the side surface of the first locking unit 501 connected with the bottom of the charging device 1. The second locking unit 502 is arranged on the bracket base 520, a locking block 504 is arranged in the second locking unit 502, the locking block 504 is inserted into the locking groove 503 or separated from the locking groove 503 by moving the locking block 504, when the locking block 504 is inserted into the locking groove 503, the first locking unit 501 and the second locking unit 502 are closed and locked, and when the locking block 504 is separated from the locking groove 503, the first locking unit 501 and the second locking unit 502 are unlocked.

Referring to fig. 29 and fig. 30, in some embodiments, a plurality of sliding rib positions may be disposed in the first locking unit 501, the sliding rib positions are parallel to a bottom plane of the charging device 1, the plurality of sliding rib positions are parallel to each other, and the plurality of sliding rib positions are respectively located at two sides of the bottom of the charging device 1.

Referring to fig. 29 and fig. 30, in the present embodiment, for example, two first sliding rib positions 505 and two second sliding rib positions 506 are disposed in the first locking unit 501, the first sliding rib positions 505 and the second sliding rib positions 506 are parallel to a bottom plane of the charging device 1, the first sliding rib positions 505 and the second sliding rib positions 506 are parallel to each other, the two first sliding rib positions 505 are respectively located at two sides of the bottom of the charging device 1, the two second sliding rib positions 506 are also respectively located at two sides of the bottom of the charging device 1, and the second sliding rib positions 506 are located at one side of the first sliding rib position 505 away from the bottom of the charging device 1.

Referring to fig. 29 and fig. 30, in some embodiments, the lengths of the first sliding rib 505 and the second sliding rib 506 are the same or different, in this embodiment, the lengths of the first sliding rib 505 and the second sliding rib 506 are different, the length of the first sliding rib 505 is greater than the length of the second sliding rib 506, and one side end surfaces of the first sliding rib 505 and the second sliding rib 506 are flush.

Referring to fig. 29 and fig. 30, in some embodiments, the width between two first sliding rib positions 505 is different from the width between two second sliding rib positions 506, the width between two second sliding rib positions 506 is greater than that between two first sliding rib positions 505, specifically, the distance between two first sliding rib positions 505 is, for example, 20mm to 50mm, preferably 30mm to 40mm, and specifically, for example, 38.7 mm. The distance between the two second sliding rib positions 506 is, for example, 30mm to 60mm, preferably 40mm to 50mm, and specifically, for example, 47.3 mm.

Referring to fig. 29 and fig. 30, in some embodiments, a third sliding rib position 518 may be further disposed on a side of the second sliding rib position 506 away from the first sliding rib position 505, the third sliding rib position 518 may be disposed in a U shape, and front, middle and rear sections on a horizontal axis of the charging device 1 are fixed by the three sliding rib positions, a width between two sides of the U shape is, for example, 40mm to 70mm, preferably 50mm to 60mm, and specifically, for example, 57.8 mm. The width of the two sides of the third sliding rib position 518 is larger than the width between the two first sliding rib positions 505 and the width between the two second sliding rib positions 506.

The distance between the first sliding rib position 505 and the second sliding rib position 506 is, for example, 1mm to 5mm, preferably 2mm to 4mm, and more specifically, 2.9mm, and the distance between the second sliding rib position 506 and the third sliding rib position 518 is, for example, 2mm to 8mm, preferably 3mm to 7mm, and more specifically, 4 mm.

Referring to fig. 30, in some embodiments, the latch groove 503 is disposed on the bottom plane of the charging device 1, the length of the latch groove 503 is, for example, 10mm to 40mm, preferably 15mm to 30mm, and particularly 29mm, the width of the latch groove 503 is, for example, 2mm to 6mm, preferably 3mm to 5mm, and particularly 4.6mm, and the distance between the latch groove 503 and the housing of the charging device 1 is, for example, 8mm to 15mm, preferably 10mm to 13mm, and particularly 11.9 mm.

Referring to fig. 30 and 31, in some embodiments, a plurality of sliding rib positions may be disposed in the second locking unit 502, the sliding rib positions are parallel to the sliding rib positions, and the sliding rib positions are parallel to each other. The sliding rib positions in the second locking unit 502 and the sliding rib positions in the first locking unit 501 are arranged in a staggered mode, and when the first locking unit 501 and the second locking unit 502 are folded, the sliding rib positions in the two locking units and the sliding rib positions in the two locking units form a penetrating structure, so that the first locking unit 501 and the second locking unit 502 are connected more stably after being folded.

Referring to fig. 30 and fig. 31, in the present embodiment, according to the number of the sliding rib positions in the first locking unit 501, for example, two first sliding rib positions 507 and two second sliding rib positions 508 are provided in the second locking unit 502, the first sliding rib positions 507 and the second sliding rib positions 508 are parallel to the sliding rib positions, and the first sliding rib positions 507 and the second sliding rib positions 508 are parallel to each other.

Referring to fig. 30 and fig. 31, when the first locking unit 501 and the second locking unit 502 are closed, the first sliding rib 505 and the first sliding rib 507 are inserted and matched, and the second sliding rib 506 and the second sliding rib 508 are inserted and matched, when the charging device 1 is connected to the cradle base 520, the first sliding rib 505 and the first sliding rib 507 are inserted and matched, and the second sliding rib 506 and the second sliding rib 508 are inserted and matched at the same time, so that the charging device 1 is stably connected to the cradle base 520, the strength of the structure is improved, and the first sliding rib 505 and the first sliding rib 507 are inserted and matched, and the second sliding rib 506 and the second sliding rib 508 are inserted and matched, so that the structure is not easy to shake.

Referring to fig. 30 and fig. 31, in some embodiments, lengths of the plurality of matching sliding rib positions may be different, and the length of the matching sliding rib position may be determined according to the length of the sliding rib position matching with the matching sliding rib position and the external dimension of the second locking unit 502, only by ensuring that the sliding rib position and the matching sliding rib position are in a gapless insertion fit, in this embodiment, for example, when the first locking unit 501 and the second locking unit 502 are folded, the length of the first matching sliding rib position 507 is greater than the length of the second matching sliding rib position 508.

Referring to fig. 30 and fig. 31, in some embodiments, the second locking unit 502 further has a third sliding rib 534 for inserting and matching with the third sliding rib 518 of the first locking unit 501, so as to further improve the structural strength and stability of the locking structure.

Referring to fig. 31 to 34, in some embodiments, the second locking unit 502 may further include a locking base 509, a locking cover 513 and a locking structure 530, wherein the locking base 509 is L-shaped, a portion of the L-shaped locking base 509 parallel to the plane of the bracket base 520 is defined as a horizontal portion 531, a portion of the L-shaped locking base 509 perpendicular to the plane of the bracket base 520 is defined as a vertical portion 532, a locking button hole 533 is disposed on the vertical portion 532, a plurality of matching sliding ribs are symmetrically disposed on two sides of the locking button hole 533, one end of the matching sliding rib is fixed on a side of the vertical portion 532 adjacent to the horizontal portion 531, and an extending direction of the matching sliding rib is parallel to the horizontal portion 531. For example, two first-pass matching sliding rib positions 507 are respectively located at two sides of the locking base 509, two second-pass matching sliding rib positions 508 are respectively located at two sides of the locking base 509, and two third-pass matching sliding rib positions 534 are respectively located at two sides of the locking base 509.

The distance between two first cooperating sliding rib positions 507 is, for example, 20mm to 50mm, preferably 30mm to 40mm, and specifically, for example, 38.6mm, the distance between two first cooperating sliding rib positions 507 may be smaller than the distance between two first sliding rib positions 505, the distance between two second cooperating sliding rib positions 508 is, for example, 30mm to 60mm, preferably 40mm to 50mm, and specifically, for example, 46.8mm, and the distance between two second cooperating sliding rib positions 508 may be smaller than the distance between two second sliding rib positions 506. The distance between the first mating sliding rib position 507 and the second mating sliding rib position 508 is, for example, 1mm to 5mm, preferably 2mm to 4mm, specifically, for example, 2.8mm, the distance between the first mating sliding rib position 507 and the second mating sliding rib position 508 may be smaller than the distance between the first sliding rib position 505 and the second sliding rib position 506, the distance between the second mating sliding rib position 508 and the third mating sliding rib position 534 is 2mm to 8mm, preferably 3mm to 7mm, specifically, for example, 3mm, and the distance between the second mating sliding rib position 508 and the third mating sliding rib position 534 may be smaller than the distance between the second mating sliding rib position 506 and the third sliding rib position 518.

Referring to fig. 32, in some embodiments, a rib 535 may be disposed on a side adjacent to the latch button hole 533 in the extending direction of the mating sliding rib, the shape of the rib 535 is not limited herein, in some embodiments, the rib 535 may be disposed on all sides of the mating sliding rib, in other embodiments, the rib 535 may be disposed only on a part of the sides of the mating sliding rib, in this embodiment, for example, the rib 535 is disposed on a side adjacent to the latch button hole 533 in the extending direction of the first mating sliding rib 507 and the second mating sliding rib 508.

Referring to fig. 31 to 33, the second locking unit 502 may further include a locking cover 513, the locking cover 513 is folded with the vertical portion 532 and the horizontal portion 531 of the locking base 509 to form a closed cavity, specifically, two sides of the locking cover 513 are provided with groove-shaped structures 536 matching with the ribs 535 matching with the side surfaces of the sliding ribs, and the locking cover 513 is horizontally moved to insert the ribs 535 into the groove-shaped structures 536, so that the locking cover 513 is tightly combined with the locking base 509. A locking hole 514 is formed in a side surface of the locking cover 513 away from the horizontal portion 531 of the locking base 509.

Referring to fig. 31, 32 and 34, the locking structure 530 includes a button 512, a tongue-shaped protrusion 516 and a locking block 504, the button 512 is sleeved in the locking button hole 533 to allow the button 512 to slide relative to the locking button hole 533, one end of the tongue-shaped protrusion 516 is connected to a side of the button 512 adjacent to the closed cavity, the other end of the tongue-shaped protrusion 516 is located at a side of the locking hole 514 away from the vertical portion 532, and an inclined angle is formed between the tongue-shaped protrusion 516 and a horizontal direction of the side away from the vertical portion 532, the inclined angle is in a range of 0-90 °, for example, in this embodiment, the inclined angle is 45 °. In this embodiment, the other end surface of the tongue-shaped protrusion 516 is parallel to the vertical portion 532. Locking piece 504 cover is located on tongue type bulge 516, and the vertical setting of locking piece 504, locking hole 514 is aimed at to the one end of locking piece 504, and the one end of locking piece 504 can stretch out and draw back in locking hole 514, and the one end that locking piece 504 is close to locking hole 514 is the inclined plane setting, is convenient for cooperate with hasp groove 503 on the first locking unit 501. The button 512 slides relative to the locking button hole 533 to drive the tongue-shaped protrusion 516 to move along the horizontal direction, because the tongue-shaped protrusion 516 is arranged obliquely upwards, the distance between the joint of the locking block 504 and the tongue-shaped protrusion 516 relative to the horizontal part 531 of the locking base 509 changes continuously, and then the end of the locking block 504 close to the locking hole 514 is extended and contracted in the locking hole 514, namely the end of the locking block 504 close to the locking hole 514 is lower or higher than the locking hole 514, when the end of the locking block 504 close to the locking hole 514 is higher than the locking hole 514, the locking block 504 is at least partially exposed out of the locking hole 514, the width of the locking block 504 is, for example, 16mm-25mm, preferably 18mm-23mm, specifically, for example, 21mm, the distance from the locking block 504 to the vertical part 532 is 8mm-15mm, preferably 10mm-13mm, specifically, for example, 11.6, the thickness of the locking block 504 is, for example, 2mm-6mm, preferably 3mm to 5mm, more specifically 4.4mm, for example.

Referring to fig. 31, 32 and 34, specifically, when the button 512 drives the tongue-shaped protrusion 516 to move toward the side close to the locking button hole 533, the joint of the locking block 504 and the tongue-shaped protrusion 516 is far away from the horizontal portion 531 of the locking base 509, and the locking block 504 moves toward the locking hole 514, so that the locking block 504 is exposed out of the locking hole 514. When the button 512 drives the tongue-shaped protrusion 516 to move towards the side far away from the locking button hole 533, the joint of the locking block 504 and the tongue-shaped protrusion 516 is close to the horizontal part 531 of the locking base 509, and the locking block 504 moves towards the direction far away from the locking hole 514, so that the inclined surface end surface of the locking block 504 is flush with the plane where the locking hole 514 is located.

Referring to fig. 31, 32, 34 to 36, in some embodiments, the second locking unit 502 further includes an elastic member (not shown) disposed on a side of the tongue-shaped protrusion 516 close to the horizontal portion 531 of the locking base 509, the elastic member is connected between the button 512 and the locking cover 513, and an elastic force of the elastic member acts in a direction parallel to the horizontal portion 531 of the locking base 509, and the elastic member is, for example, a spring. In this embodiment, the tongue-shaped protrusion 516 is pulled or pushed by the button 512 through the stretching or compressing of the spring, so that the button 512 drives the tongue-shaped protrusion 516 to move toward or away from the side of the latch button hole 533.

Referring to fig. 29 to 36, in use, when the latch structure 530 is at the initial position, the second locking unit 502 moves along the horizontal direction of the first locking unit 501, during the movement, the plurality of sliding rib positions in the first locking unit 501 and the plurality of matching sliding rib positions in the second locking unit 502 are in insertion fit, when the inclined end surface of the locking block 504 contacts with the bottom surface of the charging device 1, under the pressure of the bottom surface of the charging device 1, the locking block 504 gradually moves away from the bottom surface of the charging device 1, the joint of the locking block 504 and the tongue-shaped protrusion 516 approaches the horizontal part 531 of the locking base 509, and then the tongue-shaped protrusion 516 is driven to move away from the latch button hole 533, at this time, the elastic member gradually changes from the initial state to the compressed state until the locking block 504 falls to a position flush with the plane of the locking hole 514, the second locking unit 502 and the first locking unit 501 continue to move relatively along the horizontal direction, when one end of the locking block 504 close to the locking hole 514 is aligned with the locking groove 503 on the bottom surface of the charging device 1, the pressure of the bottom surface of the charging device 1 on the locking block 504 disappears, the elastic member gradually resets, i.e. the elastic member restores from the compressed state to the initial state, the elastic member pushes the button 512 to slide towards one side of the locking button hole 533, the movement of the button 512 drives the tongue-shaped protrusion 516 to move towards one side close to the locking button hole 533, the joint of the locking block 504 and the tongue-shaped protrusion 516 gradually gets away from the direction of the horizontal part 531 of the locking base 509, then the locking block 504 moves towards the locking hole 514 until the elastic member is restored, the locking structure 530 restores to the initial position, at this time, the locking block 504 exposes the locking hole 514 and is inserted into the locking groove 503, so as to realize the fixed locking of the first locking unit 501 and the second locking unit 502, because the plurality of sliding rib positions in the first locking unit 501 are in penetrating fit with the plurality of sliding rib positions in the second locking unit 502, make this locking structure 522's structural strength good, the clearance is little, has avoided appearing rocking after first locking unit 501 and the fixed locking of second locking unit 502, has improved the stability and the security of structure.

Referring to fig. 29 to fig. 36, when the first locking unit 501 and the second locking unit 502 need to be unlocked to realize the disengagement, the button 512 can be pressed, the button 512 is pressed to drive the tongue-shaped protrusion 516 to gradually move towards the side far away from the locking button hole 533, the elastic member gradually changes from the initial state to the compression state, the joint of the locking block 504 and the tongue-shaped protrusion 516 gradually approaches the horizontal part 531 of the locking base 509, the locking block 504 gradually moves towards the direction far away from the locking hole 514, the locking block 504 is lowered to a position flush with the plane where the locking hole 514 is located, at this time, the first locking unit 501 and the second locking unit 502 are unlocked, the first locking unit 501 and the second locking unit 502 are moved in the opposite direction along the horizontal direction, a plurality of sliding rib positions in the first locking unit 501 and a plurality of matching sliding rib positions in the second locking unit 502 are separated, and then the first locking unit 501 and the second locking unit 502 are separated.

Referring to fig. 11 to 16, the power of the circuit board 208 provided by the present invention is 5W to 400W. The circuit board 208 has a plurality of output voltages and a plurality of terminals, including a first terminal 203, a second terminal 204, a third terminal 205 and a fourth terminal 206, for providing a plurality of charging modes for a plurality of electronic devices. The battery pack 3 can charge or discharge the circuit board 208 through the third terminal 205.

Referring to fig. 11 and 16, the charging device 1 of the present invention can be used to charge various electronic devices. In an embodiment of the present invention, the electronic device is, for example, a general mobile phone, a tablet or a notebook computer, when charging, the mobile phone with a smaller volume can be placed in the accommodating groove 134 (the tablet or the notebook computer is placed on one side of the charging device 1), the charging interface of the mobile phone or the tablet is connected to the first terminal 203 by using the data line, and the mobile phone or the tablet of the electronic device is charged.

Referring to fig. 38 to 41, in another embodiment of the present invention, the electronic device is, for example, a battery pack 3. The battery pack 3 provided in the present invention has three interfaces, a first interface 31, a second interface 32, and a third interface 33. The first interface 31 and the second interface 32 are type-c type and/or USB type interfaces, and the first terminal 203 and/or the second terminal 204 can charge or discharge the battery pack 3 through the first interface 31 and the second charging interface 33; the output unit 205 is matched with the third interface 33, and can charge or discharge the battery pack 3 through the third interface 33. And a convex part 34 is arranged on the top surface of the battery pack 3, sliding grooves 35 are arranged on two sides of the convex part 34, and the two sliding grooves 35 are arranged in parallel. The third port 33 is disposed at one end of the convex portion 34 and between the slide grooves 35 on both sides of the convex portion 34.

Referring to fig. 40 to 41, the present invention provides each interface disposed on the battery pack 3, which includes the first interface 31, the second interface 32, and the third interface 33, and can be charged independently; the first interface 31 and the second interface 32 can be charged simultaneously; the third interface 33 and the first interface 31 can be charged simultaneously; the third interface 33 and the second interface 32 can be charged simultaneously.

Referring to fig. 38, the battery pack 3 is engaged with the first housing 110, the battery pack 3 is fixed on the first housing 110, the sliding groove 35 is engaged with the guide rail 116, and the output portion 205 is electrically connected to the third interface 33 for charging or discharging the battery pack 3; at this time, the first interface 31 or the second interface 32 of the battery pack 3 may be electrically connected to the first terminal 203 and/or the second terminal 204 through a data line, so as to rapidly charge or discharge the battery pack 3. Referring to fig. 35, the battery pack 3 can be clamped in the accommodating groove 134, and the first terminal 203 and/or the second terminal 204 are electrically connected to the first interface 31 and/or the second interface 32 through a data line to charge or discharge the battery pack 3.

Referring to fig. 38 to 45, in order to ensure that the battery pack 3 is engaged with the charging device 1, the sliding groove 35 of the battery pack and the guide rail 116 of the charging device 1 are limited in size. The distance a2 between the inner rails of the two parallel guide rails 116 is adapted to the inner runner width D1 of the runner 35, and the inner runner width D1 of the runner 35 is slightly smaller than the distance a2 between the inner rails of the guide rails 116, in the present embodiment, the inner runner width D1 of the runner 35 ranges from 45.8mm to 46mm, for example, and the distance a2 between the inner rails of the guide rails 116 ranges from 46.75mm to 47mm, for example. The distance B2 between the outer rails of the two parallel guide rails 116 is adapted to the outer runner width C1 of the runner 35, and the outer runner width C1 of the runner 35 is slightly smaller than the distance B2 between the outer rails of the guide rails 116, in the present embodiment, the distance B2 between the outer rails of the guide rails 116 ranges from 55.9mm to 56.1mm, for example, and the outer runner width C1 of the runner 35 ranges from 56.8mm to 56mm, for example. The inner rail thickness D2 of the rail 116 is adapted to the inner chute height a1 of the chute 35, the rail 116 is slightly larger than the inner rail thickness D2 and the inner chute height a1 of the chute 35, in this embodiment, the inner rail thickness D2 of the rail 116 ranges from 5.8mm to 6mm, for example, and the inner chute height a1 of the chute 35 ranges from 4.85mm to 5.15mm, for example. The outer rail thickness E2 of the second guide 116 is adapted to the outer chute height B1 of the chute 35, and the outer rail thickness E2 of the second guide 116 is slightly larger than the outer chute height B1 of the chute 35, in this embodiment, the outer rail thickness E2 of the second guide 116 ranges from 11.85mm to 12.15mm, for example, and the outer chute height B1 of the chute 35 ranges from 10.9mm to 10.1mm, for example.

Referring to fig. 42 to 45, in the present embodiment, a thickness C2 of the sliding part 301 of the charging device 1 is further set, and a range of the thickness C2 of the sliding part 301 is, for example, 9mm to 11 mm. Also setting the distance E1 from the chute 35 to the front end of the battery pack 3, wherein the range of the distance E1 from the chute 35 to the front end of the battery pack 3 is 23 mm-23.2 mm, for example; and a distance F1 from one end to the other end of the slide groove 35, and a range of the distance F1 from one end to the other end of the slide groove 35 is 73mm to 73.2mm, for example.

Referring to fig. 11 and 46, the electronic device, such as the vacuum cleaner 6, is provided with a fourth interface 66 at a side of the vacuum cleaner 6 close to the battery pack 3, the fourth interface 66 is matched with the fourth terminal 206, and when the vacuum cleaner 6 is fixed on the charging device 1, the fourth interface 66 is electrically connected to the fourth terminal 206 to charge the vacuum cleaner 6.

To sum up, the utility model provides a dust catcher storage device can reliably accomodate the dust catcher through this storage device to can hang the dust catcher through this storage device, thereby realize the vertical accomodating of dust catcher, reduced the ground occupancy, saved the space, and the utility model discloses the use position of support is not injectd, and it is convenient to move, can place to arbitrary suitable position as required, can not harm ground and wall. Therefore, the utility model discloses thereby effectively overcome some practical problems among the prior art and had very high use value and use meaning.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (20)

1. A dust collector storage device is characterized by comprising:

a bracket base;

one end of the support body is arranged on the bracket base, and the other end of the support body extends to the side departing from the bracket base;

the dust collector bracket is detachably arranged at the other end of the supporting body, and a suspension supporting structure capable of suspending the dust collector is arranged on the dust collector bracket.

2. The vacuum cleaner storage device of claim 1, wherein the vacuum cleaner bracket comprises a bracket base and a charging device removably mounted on the bracket base, the hanging support structure is disposed on the charging device, and a power output terminal of the charging device is electrically connected to a charging interface of the vacuum cleaner when the vacuum cleaner is hung from the hanging support structure.

3. The vacuum cleaner housing apparatus of claim 2, wherein the charging device comprises: the electronic device comprises a shell, a circuit board arranged in the shell, and an input part and an output part which are arranged on a wall body of the shell, wherein the input part and the output part are electrically connected with corresponding interfaces of the circuit board.

4. The vacuum cleaner housing apparatus of claim 3, wherein the output portion comprises a plurality of output interfaces capable of providing power to a plurality of devices.

5. The vacuum cleaner receiving apparatus of claim 3, wherein the housing includes a first housing, a second housing, and a third housing, the second housing and the first housing are engaged to form a housing having a sidewall with an opening, the third housing covers the opening, and the hanging support structure includes a receiving slot disposed on the third housing.

6. The vacuum cleaner receiving device of claim 2, wherein the bracket base is mounted on the support body by a quick-insert locking structure.

7. The vacuum cleaner receiving apparatus of claim 2, wherein an end of the support body facing the stand base is mounted on the stand base by a quick-insert locking structure.

8. The vacuum cleaner storage device of claim 6 or 7, wherein the quick-insertion locking structure comprises an insertion rod, an insertion sleeve and a lock catch, and the insertion rod and the insertion sleeve are inserted along a linear guide structure and locked by the lock catch.

9. The vacuum cleaner accommodating apparatus as claimed in claim 8, wherein the latch is mounted on the insertion rod, and a latch hole is provided on the insertion sleeve, the latch hole is matched with the latch, and the latch hole exposes the latch.

10. The vacuum cleaner receiving device of claim 8, wherein the linear guide structure includes a protrusion disposed on the insert rod or the insert sleeve and a groove correspondingly disposed on the insert sleeve or the insert rod, and the groove and the protrusion are correspondingly matched and extend along a straight line.

11. The vacuum cleaner receiving device of claim 2, wherein the charging device is mounted to the bracket base by a locking structure.

12. The vacuum cleaner storage apparatus of claim 1, wherein the support is a lockable telescoping rod.

13. The vacuum cleaner housing apparatus according to claim 1, wherein the holder base is disk-shaped, the support body is attached to one side of the holder base, and an extension line of a center of gravity of the vacuum cleaner in a vertical direction coincides with a central axis of the holder base when the vacuum cleaner is suspended.

14. The vacuum cleaner storage device of claim 1, wherein the stand base is provided with a ground support structure that can be placed on the ground, and the ground support structure is at least three legs that are provided on a side of the stand base that faces away from the vacuum cleaner holder.

15. The vacuum cleaner receiving device of claim 14, wherein the at least three feet are circumferentially equispaced and have adjustable protrusion heights.

16. The vacuum cleaner storage device of claim 1, wherein the support base includes a mounting plate, a housing, and a weight mounted on the mounting plate and located in a cavity enclosed by the housing and the mounting plate.

17. The vacuum cleaner storage device of claim 1, further comprising an accessory clamp removably mounted to the support body, the accessory clamp having at least one accessory connector disposed thereon.

18. The vacuum cleaner receiver of claim 17, wherein the accessory clamp includes a first resilient tab and a second resilient tab disposed opposite to each other, and a connector connecting the first resilient tab and the second resilient tab, wherein the first resilient tab, the second resilient tab and the connector define a slot capable of being engaged with the support body.

19. The vacuum cleaner accommodating device of claim 18, wherein the first elastic clamping piece, the second elastic clamping piece and the connecting body are provided with clamping curved surfaces at positions where the first elastic clamping piece, the second elastic clamping piece and the connecting body are contacted with the supporting body, and the clamping curved surfaces are matched with the surface shape of the supporting body corresponding to the clamping positions.

20. The vacuum cleaner storage device of claim 1, wherein a handle is disposed on a body of the vacuum cleaner, a base is disposed on a side of the handle facing away from the body, a vacuum cleaner battery pack is mounted on the base, and the hanging support structure is a portion of a receiving groove for receiving the base and the vacuum cleaner battery pack.

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