CN219717308U - Upper power supply structure and clothes airing machine - Google Patents

Abstract

The utility model discloses an upper power supply structure and a clothes drying machine. The upper power supply structure is used for being electrically conducted between the control cabinet and the lower power taking structure, and comprises: the mounting frame is used for being mounted on the upper machine body, and a movable space is formed in the mounting frame; the sliding frame is arranged in the movable space and is in sliding connection with the mounting frame; the upper connector is arranged on the sliding frame and is used for being electrically conducted with the lower electricity taking structure; and the elastic piece is arranged on the sliding frame and is used for generating elastic deformation under the driving of the lower electricity taking structure so as to adjust the distance between the lower electricity taking structure and the mounting frame. The upper power supply structure can be electrically conducted with the lower power supply structure and is used for supplying power to the airing body provided with the lower power supply structure, so that the airing body provided with the lower power supply structure can have a simple structure, and the size is miniaturized.

Description

Upper power supply structure and clothes airing machine

Technical Field

The utility model relates to the technical field of clothes airing devices, in particular to an upper power supply structure and a clothes airing machine.

Background

In the airing machine on the market at present, including host computer structure and sunning structure, host computer structure installs in the ceiling, and sunning structure can go up and down relative host computer structure to the sunning is with vacating living space. The airing structure is generally provided with a plurality of hooks for a user to airing clothes. When the hanging hook is required to be driven to move in the airing structure, if the control device and the driving device are mounted on the airing structure together, the size of the airing structure is large, and living space of a user is occupied.

Therefore, it is necessary to provide a power supply structure to be able to supply power to the airing structure, so that the airing structure can realize the driving of the hooks, and simultaneously realize the miniaturization of the airing structure.

Disclosure of Invention

To solve at least one of the problems in the prior art, according to one aspect of the present utility model, there is provided an upper power supply structure for being electrically connected between a control cabinet and a lower power taking structure, including: the mounting frame is used for being mounted on the upper machine body, and a movable space is formed in the mounting frame; the sliding frame is arranged in the movable space and is in sliding connection with the mounting frame; the upper connector is arranged on the sliding frame and is used for being electrically conducted with the lower electricity taking structure; and the elastic piece is arranged on the sliding frame and is used for generating elastic deformation under the driving of the lower electricity taking structure so as to adjust the distance between the lower electricity taking structure and the mounting frame.

In this way, the mounting frame is used as a supporting structure for sliding the sliding frame, as the elastic piece and the upper joint are both arranged on the sliding frame, the elastic piece and the upper joint can slide relative to the mounting frame, the upper joint is used for being electrically conducted with the lower electricity taking structure, so that the lower electricity taking structure can be electrically conducted with the control cabinet, and can acquire electric energy, for example, when the upper electricity supplying structure is arranged on the upper machine body in the airing machine, the airing body can acquire electric energy when the lower electricity taking structure is arranged on the airing body in the airing machine, so that the hanging hook of the airing body can be driven to move, for example, the hanging hook in the airing body is driven to be opened or gathered, and the control cabinet and the airing body for controlling the operation of the driving structure in the airing body are separated, so that the airing body has a simple structure, the size is miniaturized, and the living space of a user is reduced; simultaneously set up the elastic component, get down and get electric structure and compress the time of elastic component, the elastic component can be to upper joint and lower get electric structure and exert pressure, and with upper joint and lower get electric structure and compress tightly, guarantee the stability that both looks electricity switched on.

In some embodiments, the sliding frame comprises an outer frame body and an inner frame body arranged in the outer frame body, wherein the outer frame body is used for installing the upper joint and sliding relative to the mounting frame, and the inner frame body is used for installing the elastic piece.

In some embodiments, the upper joint is disposed at one end of the outer frame, the inner frame and the outer frame are formed in a split manner, one end of the inner frame abuts against the upper joint, the other end of the inner frame is used for mounting the elastic member, and the elastic member is disposed at the other end of the outer frame in a penetrating manner.

In some embodiments, the inner frame body is provided with a connecting lug, and the connecting lug is used for guiding the elastic piece.

In some embodiments, the other end of the outer frame body is provided with a penetrating opening through which the elastic member penetrates, and the cross-sectional area of the penetrating opening along a plane perpendicular to the elastic member is larger than the cross-sectional area of the upper joint along a plane perpendicular to the elastic member.

In some embodiments, the side wall of the outer frame body is provided with at least one lightening hole.

In some embodiments, the upper joint is removably connected with respect to the carriage.

In some embodiments, a catch is provided in the carriage for clamping the upper joint in the carriage.

In some embodiments, a plurality of sliding columns are arranged on the side wall of the movable space along the axial direction of the elastic piece, and the sliding columns are used for sliding the sliding frame.

According to one aspect of the present utility model, there is provided a laundry machine comprising: the upper machine body is used for being mounted to a ceiling and comprises an upper shell, a first driving mechanism and a control cabinet, wherein the first driving mechanism and the control cabinet are arranged in the upper shell; the airing body is movably connected relative to the upper machine body and is used for airing clothes and comprises a lower shell, a second driving mechanism, a lower power taking structure and a plurality of hooks, wherein the second driving mechanism, the lower power taking structure and the hooks are arranged in the lower shell; the above-mentioned last power supply structure, install in last casing for under first actuating mechanism's drive, when lower get the electricity structure rise to with the upper joint electricity switches on, with get the electricity structure electricity switch on down, so that second actuating mechanism can be under the control of switch board drives a plurality of couple motion.

Like this, through last organism as the installation basis for install power supply structure, switch board and first actuating mechanism, under first actuating mechanism's drive, drive sunning body rise and when electrically switching on with the top connection, second actuating mechanism can drive a plurality of couples motion under the control of switch board this moment, for example drive a plurality of couples and expand or draw in, so, with the control unit integration that controls second actuating mechanism operation to be located in the last organism of top for the sunning body that is located the below can be miniaturized, reduces occupation user's activity space.

Drawings

Fig. 1 is a schematic structural diagram of an upper power supply structure according to a first embodiment of the present utility model;

FIG. 2 is an exploded view of the upper power structure of FIG. 1 from one perspective;

FIG. 3 is an exploded view of the upper power structure of FIG. 1 from another perspective;

FIG. 4 is a schematic view of the upper power structure of FIG. 1 from one view behind the hidden mounting frame;

FIG. 5 is a schematic view of the upper power structure of FIG. 1 from another perspective after the mounting frame is hidden;

FIG. 6 is a bottom view of the upper power structure of FIG. 1 with the mounting brackets hidden;

FIG. 7 is a schematic cross-sectional view taken along the direction A-A in FIG. 6;

FIG. 8 is a schematic view of the upper power structure of FIG. 1 with the mounting and carriage hidden;

fig. 9 is a schematic structural view of a laundry machine according to a second embodiment of the present utility model;

fig. 10 is a schematic structural view of the airing machine of fig. 9 at another view angle;

FIG. 11 is an enlarged schematic view of the portion I in FIG. 10;

FIG. 12 is a schematic view of the structure of the hidden part of the upper casing of the clothes drying machine in FIG. 9;

FIG. 13 is a schematic view of the structure of the lower housing of the hidden portion of the drying aggregate in FIG. 9;

fig. 14 is an enlarged schematic view at ii in fig. 13.

Wherein the reference numerals have the following meanings:

100-upper power supply structure, 10-mounting rack, 11-movable space, 12-sliding column, 13-mounting part, 14-guiding part, 15-clamping connector, 20-sliding rack, 21-outer rack body, 211-penetrating opening, 212-mounting hole, 213-mounting space, 214-lightening hole, 22-inner rack body, 221-connecting lug, 23-buckle, 231-guiding inclined plane, 30-upper connector, 31-PCBA,32-PIN foot, 33-terminal, 40-elastic piece, 200-airing machine, 50-upper machine body, 51-upper shell, 52-first driving mechanism, 521-first driving motor, 522-first driving structure, 523-hauling rope, 53-control cabinet, 54-containing groove, 60-airing body, 61-lower shell, 62-second driving mechanism, 621-second driving motor, 622-second driving structure, 623-conveyer belt, 63-lower power taking structure, 631-lower connector, 64-hook.

Detailed Description

For a better understanding and implementation, the technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the drawings in the embodiments of the present utility model.

In the description of the present utility model, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely to facilitate description of the present utility model and simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

The utility model is described in further detail below with reference to the accompanying drawings.

Referring to fig. 1 to 8, an upper power supply structure 100 according to an embodiment of the utility model is configured to be electrically connected between a control cabinet 53 and a lower power taking structure 63, and includes a mounting frame 10, a sliding frame 20, an upper connector 30, and an elastic member 40.

Referring to fig. 1 to 3, a mounting frame 10 is configured to be mounted on an upper body 50, and a movable space 11 is formed in the mounting frame 10; the sliding frame 20 is in sliding connection with the mounting frame 10 and is arranged in the movable space 11; the upper connector 30 is mounted on the carriage 20 and is used for being electrically conducted with the lower power taking structure 63; the elastic member 40 is mounted on the carriage 20, and is configured to elastically deform under the driving of the lower power taking structure 63, so as to adjust the distance between the lower power taking structure 63 and the mounting frame 10.

In the upper power supply structure 100, the mounting frame 10 is used as a supporting structure for sliding the sliding frame 20, since the elastic member 40 and the upper connector 30 are both installed on the sliding frame 20, so that both the elastic member 40 and the upper connector 30 can slide relative to the mounting frame 10, the upper connector 30 is used for being electrically connected with the lower power supply structure 63, so that the lower power supply structure 63 can be electrically connected with the control cabinet 53, the lower power supply structure 63 can obtain electric energy, for example, when the upper power supply structure 100 is installed on the upper machine body 50 in the clothes drying machine 200, when the lower power supply structure 63 is installed on the airing body 60 in the clothes drying machine 200, the airing body 60 can obtain electric energy at this time, so that the hooks 64 in the airing body 60 can be driven to move, for example, the hooks 64 in the airing body 60 are driven to be opened or gathered, so that the control cabinet 53 and the airing body 60 controlling the operation of the driving structure in the airing body 60 are separated, so that the airing body 60 has a compact structure, and the occupied living space of a user is reduced; simultaneously, the elastic piece 40 is arranged, when the lower electricity taking structure 63 compresses the elastic piece 40, the elastic piece 40 can apply pressure to the upper connector 30 and the lower electricity taking structure 63, the upper connector 30 and the lower electricity taking structure 63 are compressed, and the stability of electric conduction of the upper connector 30 and the lower electricity taking structure 63 is ensured.

Referring to fig. 2 and 3, in one embodiment of the present utility model, since the sliding frame 20 needs to move in the movable space 11 of the mounting frame 10 to compress the elastic member 40, in order to facilitate smooth movement of the sliding frame 20, a plurality of sliding columns 12 are disposed on the side wall of the movable space 11 along the axial direction of the elastic member 40, and the sliding columns 12 are used for sliding the sliding frame 20, so that by disposing the sliding columns 12, the sliding frame 20 contacts the mounting frame 10 in a line manner, thereby reducing the contact area between the sliding frame 20 and the mounting frame 10, reducing friction between the sliding frame 20 and the mounting frame 10, facilitating up-and-down movement of the sliding frame 20 along the axial direction of the elastic member 40, and ensuring smoothness of movement of the sliding frame 20.

Specifically, the mounting frame 10 of the present embodiment is square, so the movable space 11 is square, the sliding frame 20 has four opposite faces with respect to the mounting frame 10, and the sliding columns 12 are disposed on the four sidewalls of the movable space 1 of the mounting frame 10 corresponding to the structure of the sliding frame 20, so that smoothness and stability of the sliding frame 20 during movement with respect to the mounting frame 10 are ensured.

Further, in order to secure a sufficient contact area between the carriage 20 and the mounting frame 10, a plurality of sliding posts 12 are provided on each side wall to secure a sufficient contact area between the carriage 20 and the mounting frame 10 by the plurality of sliding posts 12 on each side wall being in contact with the carriage 20, and to enable a sufficient guiding action of the plurality of sliding posts 12.

In order to facilitate the installation of the entire upper power supply structure 100 in the airing machine 200 and the subsequent maintenance of the entire upper power supply structure 100, the mounting frame 10 of the present embodiment is detachably connected with respect to the upper machine body 50, so that the entire upper power supply structure 100 is assembled into a whole and then installed in the upper machine body 50, and in a detachable connection manner, when the components in the upper power supply structure 100 need to be maintained and replaced subsequently, for example, when the upper connector 30 needs to be maintained and replaced, the entire upper power supply structure 100 can be detached, and then the upper connector 30 can be overhauled or replaced.

The detachable connection between the mounting frame 10 and the upper body 50 may be a clamping connection, an inserting connection, a bolting connection, or the like. Specifically, the mounting frame 10 and the upper body 50 in the present embodiment are connected by means of a snap connection, so as to ensure the installation efficiency of the entire upper power supply structure 100 and the upper body 50, and ensure the installation stability of the upper power supply structure 100 and the upper housing 51.

Specifically, along the direction perpendicular to the axis of the elastic member 40, two opposite sides of the mounting frame 10 are provided with the clamping connectors 15, and the clamping connectors 15 are used for being connected with the upper machine body 50 in a clamping manner, so that the clamping connectors 15 are clamped in the upper machine body 50, and the whole upper power supply structure 100 and the upper machine body 50 are detachably connected.

The sliding frame 20 of the present embodiment includes a mounting portion 13 and a guiding portion 14, two opposite ends of the mounting portion 13 are respectively provided with a clamping connector 15, the guiding portion 14 is square and forms a movable space 11, the guiding portion 14 is provided with a sliding column 12, and two ends of the guiding portion 14 along the axial direction of the elastic member 40 protrude from the mounting portion 13, so that the guiding portion 14 has a sufficient height, so that the sliding column 12 with a sufficient length can be provided for sliding of the sliding frame 20, and guiding function of the sliding column 12 is ensured. In other embodiments, the snap fitting 15 may be provided on a plurality of sides of the mounting portion 13 perpendicular to the axial direction of the elastic member 40 as needed, thereby securing the snap-fit stability of the mount 10 and the upper case 51.

Referring to fig. 2 to 8, in one embodiment of the present utility model, in order to facilitate the installation of the elastic member 40 and the upper joint 30, the carriage 20 includes an outer frame 21 and an inner frame 22 provided in the outer frame 21, the outer frame 21 is used to install the upper joint 30 and slides with respect to the mounting frame 10, and the inner frame 22 is used to install the elastic member 40, so that the respective structures of the outer frame 21 and the inner frame 22 can be respectively provided in order to facilitate the installation of the upper joint 30 and the elastic member 40 by providing the carriage 20 to include the outer frame 21 and the inner frame 22; and because the elastic element 40 is installed in the inner frame 22, the elastic element 40 can be located in the outer frame 21, so that the outer frame 21 can guide the telescopic movement of the elastic element 40, and the telescopic movement of the elastic element 40 is prevented from tilting.

Specifically, in order to facilitate the installation and the disassembly of the upper connector 30 and the elastic member 40 relative to the outer frame 21 and the inner frame 22 respectively, the upper connector 30 is disposed at one end of the outer frame 21, the inner frame 22 and the outer frame 21 are formed separately, one end of the inner frame 22 is abutted against the upper connector 30, the other end is used for installing the elastic member 40, and the elastic member 40 is disposed at the other end of the outer frame 21 in a penetrating manner, so that the upper connector 30 is disposed at one end of the outer frame 21, the upper connector 30 can be exposed relative to the outer frame 21, so as to facilitate electrical communication with the lower power taking structure 63, and the inner frame 22 and the outer frame 21 are formed separately, so that the inner frame 22 and the outer frame 21 are formed from different materials respectively, for example, when the outer frame 21 is a plastic member, the outer frame 21 is formed by opening a mold; meanwhile, the inner frame body 22 is propped against the upper connector 30 and can be supported by the upper connector 30, and when the elastic piece 40 extrudes the inner frame body 22, the upper connector 30 can be extruded, so that the installation stability of the upper connector 30 on the outer frame body 21 is ensured.

That is, the mounting space 213 is provided in the outer frame 21, the elastic member 40 is provided in the mounting space 213, the upper joint 30 is provided at one end of the outer frame 21, and a part of the upper joint 30 is provided in the mounting space 213.

Referring to fig. 7 and 8, when the inner frame 22 is used for installing the elastic member 40, the inner frame 22 is provided with a connecting lug 221, and the connecting lug 221 is used for guiding the elastic member 40, so that the elastic member 40 can be sleeved outside the connecting lug 221 and move along the axial direction of the connecting lug 221, thereby defining the movement direction of the elastic member 40.

Wherein, in order to enable the elastic member 40 to be compressed and facilitate the installation of the upper connector 30, the other end of the outer frame body 21 is provided with a penetrating opening 211 for the elastic member 40 to penetrate, the cross-sectional area of the penetrating opening 211 along the plane perpendicular to the elastic member 40 is larger than the cross-sectional area of the upper connector 30 along the plane perpendicular to the elastic member 40, namely, the elastic member 40 is abutted between the upper shell 51 and the inner frame body 22 of the upper body 50, one end is abutted with the inner frame body 22, the other end is abutted with the upper shell 51, and when the upper power supply structure 100 is in the installed use state, the elastic member 40 is in a compressed state; meanwhile, the cross section of the penetrating opening 211 along the plane perpendicular to the elastic element 40 is larger than the cross section of the upper connector 30 along the plane perpendicular to the elastic element 40, when the upper connector 30 and the elastic element 40 are installed, the upper connector 30 can be placed into the outer frame body 21 from the penetrating opening 211 at first, specifically, placed at the mounting hole 212 at one end of the outer frame body 21, then the inner frame body 22 is propped against the upper connector 30 after penetrating the penetrating opening 211, and finally the elastic element 40 is placed in the outer frame body 21, so that the installation of the whole upper power supply structure 100 is facilitated.

Specifically, the upper connector 30 of the present embodiment is detachably connected with respect to the sliding frame 20, specifically, with respect to the outer frame 21, so that the upper connector 30 and the outer frame 21 are convenient to mount and dismount in the subsequent use process, and thus the upper connector 30 can be replaced or maintained.

Specifically, when the upper joint 30 and the sliding frame 20 are installed, that is, when the sliding frame 20 is installed relative to the outer frame 21, the buckle 23 is arranged in the outer frame 21, and the buckle 23 is used for clamping the upper joint 30 in the sliding frame 20, so that the upper joint 30 is clamped in the outer frame 21 by arranging the buckle 23, the upper joint 30 is clamped in the installation space 213, and the upper joint 30 and the sliding frame 20 are installed.

Specifically, referring to fig. 2 and 3, after the upper connector 30 passes through the outer frame 21 provided with the end of the through hole 211, the upper connector 30 is placed at the end of the outer frame 21 provided with the mounting hole 212, and a guiding inclined plane 231 may be provided on the buckle 23, so that the upper connector 30 can conveniently pass through the buckle 23 and be placed at the mounting hole 212.

Referring to fig. 2, 3 and 7, the upper connector 30 includes a PCBA31 board, a PIN 32 disposed on the PCBA31 board, and a connection terminal 33, wherein the PIN 32 is used for being in butt connection with the lower power taking structure 63 to realize electrical conduction, the connection terminal 33 is used for being electrically connected with the control cabinet 53, and when the upper connector 30 is mounted at the mounting hole 212, the buckle 23 is clamped on the PCBA31 board to clamp the whole upper connector 30 on the outer frame 21.

Further, the sliding frame 20 is provided with a plurality of buckles 23, and the plurality of buckles 23 are arranged along the circumferential direction of the sliding frame 20, so that the upper joint 30 is stably connected through the plurality of buckles 23. It will be appreciated that, corresponding to the structure of the square guide 14, the four side walls of the carriage 20 may each be provided with a catch 23.

Further, since the sliding frame 20 needs to slide up and down relative to the mounting frame 10, in order to reduce the weight of the entire sliding frame 20, at least one lightening hole 214 is provided on the side wall of the outer frame 21 in this embodiment, so that by providing the lightening hole 214, the weight of the entire sliding frame 20 is reduced, so that when the power taking structure 63 is used to compress the elastic member 40, the sliding frame 20 is driven to slide relative to the mounting frame 10 under the driving of the power taking structure 63.

Specifically, corresponding to the structure of the square guide portion 14, the four side walls of the outer frame body 21 of the present embodiment are provided with one lightening hole 214, the lightening hole 214 is also square, and the length direction of the lightening hole 214 is the axial direction of the elastic member 40, so that the lightening hole 214 with a sufficient area can be formed on each side wall of the sliding frame 20 to sufficiently lighten the weight of the sliding frame 20; meanwhile, the weight-reducing holes 214 are provided so that the wires connected to the connection terminals 33 of the upper connector 30 are electrically connected to the control cabinet 53 after being threaded.

Referring to fig. 9 to 14, the present utility model further provides a clothes drying machine 200 according to a second embodiment, which includes an upper machine body 50, a drying body 60, and the upper power supply structure 100.

Referring to fig. 9 to 11, the upper body 50 is configured to be mounted to a ceiling and includes an upper housing 51, and a first driving mechanism 52 and a control cabinet 53 disposed in the upper housing 51; the airing body 60 is movably connected with the upper machine body 50 and is used for airing clothes, and comprises a lower shell 61, a second driving mechanism 62, a lower power taking structure 63 and a plurality of hooks 64, wherein the second driving mechanism 62, the lower power taking structure 63 and the plurality of hooks 64 are arranged in the lower shell 61; the upper power supply structure 100 is mounted on the upper housing 51, and is configured to be driven by the first driving mechanism 52, and when the lower power taking structure 63 is lifted to be electrically connected to the upper connector 30, the lower power taking structure 63 is electrically connected to the upper connector, so that the second driving mechanism 62 can drive the plurality of hooks 64 to move under the control of the control cabinet 53.

The above-mentioned airing machine 200 is used as a mounting base through the upper machine body 50 for mounting the upper power supply structure 100, the control cabinet 53 and the first driving mechanism 52, when the first driving mechanism 52 drives the airing body 60 to rise and electrically conduct with the upper joint 30, at this time, the second driving mechanism 62 can drive the plurality of hooks 64 to move under the control of the control cabinet 53, for example, drive the plurality of hooks 64 to unfold or fold, so that the control component for controlling the operation of the second driving mechanism 62 is integrated into the upper machine body 50 located above, so that the airing body 60 located below can be miniaturized, and the active space occupied by a user is reduced.

Referring to fig. 12, the first driving mechanism 52 of the present embodiment may include a first driving motor 521, a first transmission structure 522 and a traction rope 523, where the traction rope 523 is disposed through the upper machine body 50 and connected to the airing body 60, the first transmission structure 522 is connected between the first driving motor 521 and the traction rope 523, and under the rotation of the first driving motor 521, the power is transmitted to the traction rope 523 by the first transmission structure 522, and the traction rope 523 drives the airing body 60 to ascend or descend.

The lower power taking structure 63 of the present embodiment includes a lower connector 631, the lower connector 631 is electrically connected to the upper connector 30, and the upper connector 30 transmits the electric quantity and the control signal to the lower connector 631, so that the electric quantity is transmitted to the second driving mechanism 62 by the lower power taking structure 63, and the second driving mechanism 62 can realize the driving action.

Further, referring to fig. 13 and 14, the second driving mechanism 62 may include a second driving motor 621, a second transmission structure 622, and a conveyor belt 623, the second transmission structure 622 transmitting power of the second driving motor 621 to the conveyor belt 623, the conveyor belt 623 being connected to the hook 64 so as to drive the movement of the hook 64 to be unfolded and folded. For example, one hook group is respectively arranged on two opposite sides of the conveyor belt 623, each hook group comprises a plurality of hooks 64, the distance between the hooks 64 in each group is fixed, the moving directions of the two groups of hooks 64 are opposite, and the two groups of hooks 64 can be unfolded and folded under the driving of the second driving motor 621.

In addition, referring to fig. 11, since the lower power taking structure 63 can compress the elastic member 40 in the upper power supply structure 100, the whole airing body 60 can further move upwards, so the upper machine body 50 can be provided with the accommodating groove 54, and the airing body 60 can be accommodated in the accommodating groove 54 to hide the airing body 60, so that the uniformity of the airing machine 200 is ensured when the whole airing machine 200 is in a non-use state.

The technical means disclosed by the scheme of the utility model is not limited to the technical means disclosed by the embodiment, and also comprises the technical scheme formed by any combination of the technical features. It should be noted that modifications and adaptations to the utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.

Claims (10)

1. The upper power supply structure (100) is used for being electrically conducted between the control cabinet (53) and the lower power taking structure (63), and is characterized by comprising:

the mounting frame (10), the mounting frame (10) is used for being mounted on the upper machine body (50), and a movable space (11) is formed in the mounting frame (10);

the sliding frame (20) is arranged in the movable space (11) and is in sliding connection with the mounting frame (10);

an upper connector (30) mounted to the carriage (20) for electrical communication with the lower powered structure (63);

and the elastic piece (40) is arranged on the sliding frame (20) and is used for generating elastic deformation under the driving of the lower electricity taking structure (63) so as to adjust the distance between the lower electricity taking structure (63) and the mounting frame (10).

2. The upper power supply structure (100) according to claim 1, wherein the sliding frame (20) comprises an outer frame body (21) and an inner frame body (22) arranged in the outer frame body (21), the outer frame body (21) is used for installing the upper joint (30) and sliding relative to the mounting frame (10), and the inner frame body (22) is used for installing the elastic piece (40).

3. The upper power supply structure (100) according to claim 2, wherein the upper connector (30) is disposed at one end of the outer frame body (21), the inner frame body (22) and the outer frame body (21) are formed in a split manner, one end of the inner frame body (22) abuts against the upper connector (30), the other end of the inner frame body is used for mounting the elastic member (40), and the elastic member (40) is disposed at the other end of the outer frame body (21) in a penetrating manner.

4. An upper power supply structure (100) according to claim 3, wherein the inner frame body (22) is provided with a connecting lug (221), and the connecting lug (221) is used for guiding the elastic element (40).

5. An upper power supply structure (100) according to claim 3, wherein the other end of the outer frame body (21) is provided with a penetrating opening (211) through which the elastic member (40) is penetrated, and a cross-sectional area of the penetrating opening (211) along a plane perpendicular to the elastic member (40) is larger than a cross-sectional area of the upper joint (30) along a plane perpendicular to the elastic member (40).

6. The upper power supply structure (100) according to claim 5, wherein at least one lightening hole (214) is provided on a side wall of the outer frame body (21).

7. The upper power supply structure (100) according to claim 1, wherein the upper joint (30) is detachably connected with respect to the carriage (20).

8. The upper power supply structure (100) according to claim 7, wherein a catch (23) is provided in the carriage (20), the catch (23) being used to clamp the upper joint (30) in the carriage (20).

9. The upper power supply structure (100) according to claim 1, wherein a plurality of sliding posts (12) are provided on a side wall of the movable space (11) along an axial direction of the elastic member (40), and the sliding posts (12) are used for sliding the sliding frame (20).

10. Airing machine (200), its characterized in that includes:

an upper body (50), the upper body (50) being for mounting to a ceiling, comprising an upper housing (51) and a first drive mechanism (52) and a control cabinet (53) provided within the upper housing (51);

the airing body (60) is movably connected relative to the upper machine body (50) and is used for airing clothes and comprises a lower shell (61), a second driving mechanism (62), a lower electricity taking structure (63) and a plurality of hooks (64), wherein the second driving mechanism (62) is arranged in the lower shell (61);

the upper power supply structure (100) according to any one of claims 1 to 9, being mounted on the upper housing (51) and configured to be driven by the first driving mechanism (52) to be electrically connected to the lower power take-off structure (63) when the lower power take-off structure (63) is lifted to be electrically connected to the upper connector (30), so that the second driving mechanism (62) can drive a plurality of hooks (64) to move under the control of the control cabinet (53).