CN117663248A - Window type air conditioner assembly - Google Patents

Abstract

The invention discloses a window type air conditioner component, comprising: the window type air conditioner comprises an outer machine part, an inner machine part and a connecting part, wherein the outer end of the connecting part is rotationally connected with the inner end of the upper part of the outer machine part, a first guide structure is arranged on the bottom of the connecting part and/or the back of the outer machine part, the mounting bracket comprises a first frame part and a second frame part which are connected, the first frame part is suitable for being arranged on a windowsill, the second frame part is suitable for being arranged outdoors and clamped between a wall body and the outer machine part, a second guide structure is arranged on the first frame part and/or the second frame part, the second guide structure is suitable for being matched with the first guide structure to be used for guiding the inner and outer sliding of the window type air conditioner relative to the mounting bracket, and one of the first guide structure and the second guide structure is provided with a stop part suitable for being matched with the other stop to limit the limit outward moving position of the window type air conditioner. According to the window type air conditioner assembly, the installation convenience and the safety of the window type air conditioner can be improved.

Description

Window type air conditioner assembly

Technical Field

The invention relates to the technical field of air conditioners, in particular to a window type air conditioner component.

Background

In order to meet the noise reduction requirement, some window air conditioners are designed into saddle forms with open grooves at the bottoms between an outer machine and an inner machine so as to be clamped on a windowsill by the grooves and isolate the noise of the outer machine through a wall body. When the window type air conditioner is installed, the window type air conditioner needs to be integrally lifted and then pushed out, so that the mode is laborious, and the whole machine falls outside a window.

Disclosure of Invention

The present invention aims to solve at least one of the technical problems existing in the prior art. Therefore, the present invention is directed to a window air conditioner assembly that can improve the convenience and safety of installation of a window air conditioner.

According to an embodiment of the invention, a window air conditioner assembly includes: the window type air conditioner comprises an outer machine part suitable for being arranged outdoors, an inner machine part suitable for being arranged indoors and a connecting part for connecting the outer machine part and the inner machine part, wherein the outer end of the connecting part is rotationally connected with the inner end of the upper part of the outer machine part, and a first guide structure is arranged at the bottom of the connecting part and/or on the back of the outer machine part; the mounting bracket comprises a first frame part and a second frame part which are connected, wherein the first frame part is suitable for being arranged on a windowsill and is positioned below the connecting part, the second frame part is suitable for being arranged outdoors and is clamped between a wall body and the outer machine part, a second guide structure is arranged on the first frame part and/or the second frame part, the second guide structure is suitable for being matched with the first guide structure to guide the window type air conditioner to slide inside and outside the mounting bracket relatively, and one of the first guide structure and the second guide structure is provided with a stop part which is suitable for being matched with the other stop part to limit the limit outward movement position of the window type air conditioner. According to the window type air conditioner assembly provided by the embodiment of the invention, the installation convenience and safety of the window type air conditioner can be improved.

In some embodiments, the stop is located at an inner end of the first guide structure and the stop is adapted to cooperate with an inner end stop of the second guide structure; alternatively, the stop portion is located at an outer end of the second guide structure, and the stop portion is adapted to be in stop fit with an outer end of the first guide structure.

In some embodiments, the first guide structures are respectively disposed on two lateral sides of the window-type air conditioner, the second guide structures are respectively disposed on two lateral sides of the mounting bracket, and the second guide structures on the corresponding sides are in guide fit with the first guide structures.

In some embodiments, the first guide structure includes an outer rail defining a runner that is open laterally inboard, and the second guide structure includes an inner rail including a slide that is mated to the runner and a stop that is connected to the slide and stops laterally inboard of the outer rail.

In some embodiments, the first guide structure includes a first guide rail, the first guide rail is disposed on the back of the outer machine portion, an inner end of the first guide rail is configured as the stop portion, the second frame portion includes a first sub-frame and a second sub-frame, the first sub-frame is vertically disposed, an inner end of the second sub-frame is rotatably connected with an outer end of the first frame portion, the second guide structure includes a second guide rail, and the second guide rail is disposed on the second sub-frame.

In some embodiments, the first subframe is provided with a first locking structure, the second subframe is provided with a second locking structure, and the second locking structure is suitable for being locked and matched with the first locking structure when the second subframe rotates to a vertical state.

In some embodiments, the first guide structure includes a third guide rail and a fourth guide rail, the third guide rail is disposed at the bottom of the connection portion, the fourth guide rail is disposed at the back of the outer machine portion, the inner end of the third guide rail is configured as the stopper portion, the second guide structure includes a fifth guide rail, and the fifth guide rail is disposed at the first frame portion.

In some embodiments, the second frame portion is provided with a first locking structure, and the fourth guide rail is provided with a second locking structure, and when the outer machine portion rotates to a use state, the second locking structure is suitable for being locked and matched with the first locking structure.

In some embodiments, one of the first capture structure and the second capture structure is a resilient latch mechanism, and the other includes a latch hole.

In some embodiments, the mounting bracket includes a third frame portion connected to the first frame portion, the third frame portion adapted to be positioned indoors and sandwiched between a wall and the inner machine portion; alternatively, the mounting bracket includes a raised structure adapted to be supported on the sill and connect the sill with the first frame portion.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a state diagram of a window air conditioner assembly according to a first embodiment of the present invention;

FIG. 2 is an exploded view of the window air conditioner assembly shown in FIG. 1;

fig. 3-7 are process diagrams of the assembly of the window air conditioner assembly shown in fig. 2;

FIG. 8 is a schematic view of the window air conditioner assembly shown in FIG. 3;

FIG. 9 is a cross-sectional view of the window air conditioner assembly shown in FIG. 5;

FIG. 10 is a schematic view of the window air conditioner assembly shown in FIG. 5;

FIG. 11 is a schematic view of the window air conditioner assembly shown in FIG. 6;

FIG. 12 is a schematic view of the window air conditioner assembly shown in FIG. 7;

FIG. 13 is a schematic view of the window air conditioner assembly shown in FIG. 10;

FIG. 14 is a mating view of the first guide structure and the second guide structure shown in FIG. 13;

FIG. 15 is a schematic view of a mounting bracket according to one embodiment of the invention;

fig. 16 is a schematic view of a supporting mechanism or the like according to an embodiment of the present invention;

fig. 17 is an enlarged view of the P1 portion shown in fig. 10;

fig. 18 is an enlarged view of the P2 portion shown in fig. 11;

fig. 19 is an enlarged view of the P3 portion shown in fig. 12;

FIG. 20 is a schematic view of a mounting bracket according to one embodiment of the invention;

fig. 21 is an enlarged view of the P4 portion shown in fig. 20;

fig. 22 is an installation state diagram of a window air conditioner in a window air conditioner assembly according to a second embodiment of the present invention;

FIG. 23 is a schematic view of a mounting bracket in the window air conditioner assembly shown in FIG. 22;

fig. 24-26 are assembly process views of the window air conditioner assembly shown in fig. 22;

fig. 27 is an enlarged view of the P5 portion shown in fig. 25;

fig. 28 is an enlarged view of the P6 portion shown in fig. 26;

FIG. 29 is a schematic view of the window air conditioner assembly shown in FIG. 26;

FIG. 30 is a schematic mounting view of a mounting bracket according to one embodiment of the invention;

FIG. 31 is a schematic view of the mounting bracket shown in FIG. 30;

FIG. 32 is another schematic view of the mounting bracket shown in FIG. 30;

FIG. 33 is a schematic view of the raised structure shown in FIG. 32;

FIG. 34 is an exploded view of the raised structure shown in FIG. 33;

fig. 35 is a cross-sectional view of the raised structure shown in fig. 33.

Reference numerals:

window air conditioner assembly 1000;

a window type air conditioner 100;

an outer machine part 11; a back 111 of the outer machine part; a top 112 of the outer machine section;

an inner unit 12; a connection portion 13; a bottom 131 of the connection part;

a first guide structure 14; a stopper 141; an outer rail 142; a chute 143;

a first guide rail 14a; a third guide rail 14b; a fourth guide rail 14c;

a mounting bracket 200;

a first frame part 2; a second frame part 3; a first sub-rack 31; a second sub-rack 32; a support mechanism 33;

a second guide structure 4; an inner rail 41; a slide 411; a blocking portion 412;

a second guide rail 4a; a fifth guide rail 4b;

a first capture structure 5; an elastic member 51; a lock pin 52;

a second capture structure 6; a lock hole 61; a guide structure 62;

a third frame 7; a raising structure 8; a first pad 81; a second pad 82; a circular hole 821;

a third pad 83; oblong holes 831; a screw 84; a guide block 91;

a guide 92; a first guide slope 921; a second guide ramp 922;

a wall A; a window B; a windowsill C; a pivot axis L.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.

The following disclosure provides many different embodiments, or examples, for implementing different structures of the invention. In order to simplify the present disclosure, components and arrangements of specific examples are described below. They are, of course, merely examples and are not intended to limit the invention. Furthermore, the present invention may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, the present invention provides examples of various specific processes and materials, but one of ordinary skill in the art will recognize the applicability of other processes and/or the use of other materials.

Next, a window air conditioner assembly 1000 according to an embodiment of the present invention is described with reference to the accompanying drawings.

As shown in fig. 1 and 2, the window air conditioner assembly 1000 includes a window air conditioner 100, and the window air conditioner 100 includes an outer unit 11 adapted to be disposed outdoors, an inner unit 12 adapted to be disposed indoors, and a connection portion 13 connecting the outer unit 11 and the inner unit 12. That is, the window air conditioner 100 includes an outer unit 11, an inner unit 12, and a connection unit 13, and the window air conditioner 100 is provided outside the room when in normal use, the inner unit 12 is provided inside the room, and the outer unit 11 and the inner unit 12 are connected by the connection unit 13.

In some alternative examples, the inner unit 12 may include an indoor side heat exchanger, an indoor side fan, etc., and the outer unit 11 may include a compressor, an outdoor side heat exchanger, an outdoor side fan, etc., and a refrigerant line is connected between the inner unit 12 and the outer unit 11, so that the indoor side heat exchanger, the outdoor side heat exchanger, the compressor, etc. constitute a refrigerant circulation system to implement a refrigeration cycle or a heating cycle. Of course, the present invention is not limited thereto, and for example, in other embodiments of the present invention, an indoor side fan, an outdoor side fan, etc. may be omitted, which is not exemplified herein.

Specifically, the connection relationship between the connection portion 13 and the internal unit 12 is not limited, and may be a separate piece, assembled and connected, or may be an integral piece. In addition, there may be various relative positions of the connection portion 13 and the inner machine portion 12, for example, the connection portion 13 may be higher than the center height of the inner machine portion 12, for example, the connection portion 13 may be flush with the upper portion of the inner machine portion 12, and so on.

In some embodiments, the connecting portion 13 is telescopically adjustable in an inner and outer direction (i.e. longitudinal direction) or the connecting portion 13 and the inner machine portion 12 are adjustable in the inner and outer direction (i.e. longitudinal direction), so that windowsills C with different widths can be better adapted.

The orientations and the relative positional relationships between the components described herein are based on the orientations and the relative positional relationships of the window air conditioner 100 in the use state (e.g., the state shown in fig. 1).

Referring to fig. 1 to 2, the outer end of the connecting portion 13 is rotatably connected to the upper inner end of the outer machine portion 11. Wherein, "upper inner end of the outer machine part 11" means: when the window air conditioner 100 is in the use state, the back 111 of the outer machine 11 (i.e., the side surface of the outer machine 11 facing the wall a) and the top 112 of the outer machine 11 (i.e., the upper surface of the outer machine 11) meet.

The "outer end of the connecting portion 13 is rotatably connected to the upper inner end of the outer machine portion 11" described herein means: the outer machine part 11 is rotatable relative to the connection part 13 about a pivot axis L which is located at the upper inner end of the outer machine part 11 and extends in a transverse direction. Thus, the window air conditioner 100 can be mounted easily by turning the outer unit 11.

It should be noted that, the window air conditioner assembly 1000 described herein is suitable for being disposed in the window B, the inside and outside directions of the window B (i.e., the direction passing through the window B) are longitudinal, the width direction of the window B is transverse, and the height direction of the window B is vertical.

For example, as shown in fig. 2, when the window air conditioner 100 is in the initial state, the back 111 of the outer machine part is vertically arranged, the top 112 of the outer machine part is higher than the back, the bottom of the outer machine part 11 is lower than the back, and the connecting part 13 is substantially flush with the top 112 of the outer machine part. For ease of installation, the outer machine part 11 may be rotated in a bottom elevation about the pivot axis L, as shown for example in fig. 3, so that the back 111 of the outer machine part is elevated to be substantially flush with the connecting part 13. At this time, as shown in fig. 4 and 5, the window air conditioner 100 is directly pushed out to the outdoor side without raising the inner unit 12, and the outer unit 11 can be easily pushed out to the outdoor side. When the outer machine part 11 reaches the outside of the room as shown in fig. 6, the outer machine part 11 can be rotated with its bottom lowered about the pivot axis L, so that the bottom of the outer machine part 11 is lowered to be changed into a use state, for example, as shown in fig. 7. It can be seen that the use state (e.g., as shown in fig. 7) of the window air conditioner 100 is the same as the initial state (e.g., as shown in fig. 1). Thereby, the installation portability and the installation safety of the window air conditioner 100 are improved.

As shown in fig. 1-3, the window air conditioner assembly 1000 further includes a mounting bracket 200, the mounting bracket 200 includes a first frame portion 2 and a second frame portion 3 connected to each other, the first frame portion 2 is adapted to be disposed on the window sill C and located below the connection portion 13, and the second frame portion 3 is adapted to be disposed outdoors and sandwiched between the wall body a and the outer machine portion 11.

That is, when the window air conditioner assembly 1000 is in the use state, the mounting bracket 200 is mounted to the window B, and the first frame part 2 is located on the window sill C and below the connection part 13, for example, the connection part 13 may be supported by the first frame part 2, or there may be no supporting relationship between the first frame part 2 and the connection part 13. Meanwhile, the second frame 3 is located outside the room and between the back 111 of the outer machine and the wall a, for example, the second frame 3 may be used to stop the outer machine 11, or there may be no abutting relationship between the second frame 3 and the outer machine 11.

As shown in fig. 8 and 9, the bottom 131 of the connecting part and/or the back 111 of the outer machine part are provided with a first guiding structure 14, and the first frame part 2 and/or the second frame part 3 are provided with a second guiding structure 4. The second guide structure 4 is adapted to cooperate with the first guide structure 14 for guiding the window air conditioner 100 to move inside and outside with respect to the mounting bracket 200. For example, when the window air conditioner 100 is installed, the window air conditioner 100 may be guided to move linearly outwards by the cooperation of the first guide structure 14 and the second guide structure 4, and when the window air conditioner 100 is disassembled, the window air conditioner 100 may be guided to move linearly inwards by the cooperation of the first guide structure 14 and the second guide structure 4.

As shown in fig. 8 and 9, one of the first guide structure 14 and the second guide structure 4 has a stopper 141 adapted to cooperate with the other cooperating stopper to limit the extreme outward movement position of the window air conditioner 100, thereby limiting the outward movement of the window air conditioner 100 by the stopper 141, preventing the outward movement of the window air conditioner 100, and improving the installation safety of the window air conditioner 100.

For example, when the window air conditioner 100 is pushed from the window B to the outdoor side during installation of the window air conditioner 100, the first guide structure 14 is engaged with the second guide structure 4, and when the window air conditioner 100 is moved to the limit position, the stop portion 141 can stop, so that the window air conditioner 100 is not moved outward any more, the problem that the outer machine portion 11 is moved outward excessively and falls down is avoided, and an outward movement anti-falling function is provided for the window air conditioner 100.

For example, in some embodiments, when the inner part 12 is lower relative to the connecting part 13 (e.g., the center height of the inner part 12 is lower than the connecting part 13), if the outer part 11 is excessively moved outward, the problem of the inner part 12 colliding with the mounting bracket 200 or the wall a may be caused, and for example, in some embodiments, when the inner part 12 is higher relative to the connecting part 13 (e.g., the center height of the inner part 12 is higher than the connecting part 13), if the outer part 11 is excessively moved outward, the risk of the inner part 12 toppling out to the outside may be caused. Thereby, the window air conditioner 100 is protected, and the installation safety is improved.

And, when the stop portion 141 can be used for limiting the outer movement of the window air conditioner 100 to a limit position, by arranging the stop portion 141 on one of the first guide structure 14 and the second guide structure 4, no additional stop mechanism is required, thereby simplifying the whole structure, reducing the cost, saving the occupation of space, improving the compactness of the structure and being beneficial to the miniaturization development of the window air conditioner assembly 1000.

In some embodiments of the invention, as shown in fig. 8 and 9, a stop 141 is located at the inner end of the first guide structure 14, the stop 141 being adapted to be in stop engagement with the inner end of the second guide structure 4. Thus, the entire length of the first guide structure 14 in the inner-outer direction can be used for the guide direction, and a longer guide range can be provided when the length of the first guide structure 14 is fixed. It should be noted that, the inner end of the first guide structure 14 is the end of the first guide structure 14 near the inner machine portion 12 in a state where the outer machine portion 11 is lifted by the back 111 to be substantially flush with the connecting portion 13 (for example, as shown in fig. 8), and the inner end of the second guide structure 4 is the end of the second guide structure 4 near the inner machine portion 12 in a state where the outer machine portion 11 is lifted by the back 111 to be substantially flush with the connecting portion 13 (for example, as shown in fig. 8).

Also for example, in other embodiments of the invention, the stop 141 is located at the outer end of the second guide structure 4, and the stop 141 is adapted to stop-fit with the outer end of the first guide structure 14 (this embodiment is not shown). Thereby, the entire length of the second guide structure 4 in the inner-outer direction can be used for the guide direction, and a longer guide range can be provided when the length of the second guide structure 4 is fixed. The outer end of the first guide structure 14 is the end of the first guide structure 14 away from the inner machine portion 12 in a state where the outer machine portion 11 is lifted by the back 111 to be substantially flush with the connecting portion 13 (for example, as shown in fig. 8), and the outer end of the second guide structure 4 is the end of the second guide structure 4 away from the inner machine portion 12 in a state where the outer machine portion 11 is lifted by the back 111 to be substantially flush with the connecting portion 13 (for example, as shown in fig. 8).

In some embodiments of the present invention, as shown in fig. 8 and 9, the window air conditioner 100 is provided with first guide structures 14 at both lateral sides thereof, and the mounting bracket 200 is provided with second guide structures 4 at both lateral sides thereof, respectively, and the second guide structures 4 at the respective sides are in guide engagement with the first guide structures 14. Thus, the inside and outside slip guide of the window air conditioner 100 is more stable and reliable. Of course, the present invention is not limited thereto, and in other embodiments of the present invention, only one set, or three sets, or more sets of the first guiding structure 14 and the second guiding structure 4 may be provided to meet different practical requirements, which is not described herein.

When the first guide structures 14 are disposed on both lateral sides of the window-type air conditioner 100, the second guide structures 4 are disposed on both lateral sides of the mounting bracket 200, and the second guide structures 4 on the corresponding sides are in guide engagement with the first guide structures 14, as shown in fig. 13 and 14, in some alternative examples, the first guide structures 14 include an outer guide rail 142, the outer guide rail 142 defines a sliding groove 143 that is open on the lateral inner side (i.e., the side near the lateral center position of the window-type air conditioner 100), the second guide structures 4 include an inner guide rail 41, the inner guide rail 41 includes a sliding portion 411 and a blocking portion 412, the sliding portion 411 is inserted into the sliding groove 143, the blocking portion 412 is connected to the sliding portion 411 and blocks the lateral inner side (i.e., the side near the lateral center position of the window-type air conditioner 100), and the forms of the outer guide rail 142 and the inner guide rail 41 may be, for example, as shown in fig. 13 and 14, both have a substantially folded-angle cross section.

Therefore, the window type air conditioner 100 can be effectively prevented from shaking along the transverse direction when moving inside and outside, moreover, the outer guide rail 142 in the form can be arranged at the edges of the two transverse sides of the window type air conditioner 100, and the inner guide rail 41 can be arranged at the edges of the two transverse sides of the mounting bracket 200, so that the window type air conditioner is more convenient to observe, and the first guide structure 14 and the second guide structure 4 are more convenient and easier to cooperate.

It should be noted that the specific arrangement of the first guide structure 14 and the second guide structure 4 may be specifically designed according to the specific form of the mounting bracket 200 to better achieve the guiding and limiting requirements, for example, the following two embodiments are described, but the present invention is not limited to the following two embodiments.

Example 1

As shown in fig. 8, the first guide structure 14 includes a first guide rail 14a, the first guide rail 14a is provided at the back 111 of the outer machine part, the inner end of the first guide rail 14a is configured as a stopper 141, the second frame part 3 includes a first sub-frame 31 and a second sub-frame 32, and the first sub-frame 31 is vertically arranged, for example, the upper end of the first sub-frame 31 is connected with the outer end of the first frame part 2. The inner end of the second sub-frame 32 is rotatably connected to the outer end of the first frame part 2, and the second guide structure 4 includes a second guide rail 4a, where the second guide rail 4a is provided on the second sub-frame 32. The inner end of the first rail 14a is the end of the first rail 14a near the indoor side when the outer machine part 11 is in a state of being lifted back to be substantially flush with the connecting part 13 (for example, as shown in fig. 8), and the inner end of the second sub-frame 32 is the end of the second sub-frame 32 near the indoor side when the second sub-frame 32 is rotated to be substantially horizontal (for example, as shown in fig. 8).

Thus, when the window air conditioner 100 is assembled, the second sub-frame 32 can be rotated to a horizontal state (as shown in fig. 8) and the outer unit 11 can be rotated to a state where the back is horizontal. Then, the window air conditioner 100 is pushed outward so that the first rail 14a is engaged with the second rail 4a, whereby the window air conditioner 100 can be pushed outward more stably until the stopper 141 at the inner end of the first rail 14a is brought into stopping engagement with the inner end of the second rail 4a (for example, as shown in fig. 10), stopping pushing the window air conditioner 100. Thereafter, the outer machine part 11 and the second sub-frame 32 (e.g., as shown in fig. 11) may be rotated downward until the window air conditioner 100 is converted into a use state (e.g., as shown in fig. 12). In the process of the outer machine 11 rotating and falling, the stop portion 141 is abutted against the inner end of the second guide rail 4a, and the first guide rail 14a is matched with the second guide rail 4a, so that the second guide rail 4a is prevented from being separated from the outer machine 11, and the falling reliability and stability of the outer machine 11 are improved.

Optionally, as shown in fig. 15 and 16, a supporting mechanism 33 is disposed between the first subframe 31 and the second subframe 32, so as to provide a resistance for the second subframe 32 to block the second subframe 32 from rotating downwards, so that the outer machine portion 11 and the second subframe 32 can be stably dropped together, the risk of collision and the like occurring at an excessively high dropping speed of rotation is avoided, and the installation safety is improved. It should be noted that the type of the supporting mechanism 33 is not limited, and for example, the supporting mechanism 33 may be a pneumatic supporting mechanism 33 (for example, as shown in fig. 15), a spring supporting mechanism 33 (for example, as shown in fig. 16), a hydraulic supporting mechanism 33, or the like, so that flexibility of design may be improved.

Alternatively, as shown in fig. 8 and 15, in the embodiment of the present invention, the first guide rails 14a may be provided in two and distributed at both lateral side edges of the outer machine part 11, each of the first guide rails 14a is configured as an outer guide rail 142, and correspondingly, the second sub-frames 32 may be provided in two and laterally spaced apart, each of the second sub-frames 32 being provided at laterally outer sides thereof with a second guide rail 4a, each of the second guide rails 4a being configured as an inner guide rail 41.

As shown in fig. 17-19, the first subframe 31 is provided with a first locking structure 5, the second subframe 32 is provided with a second locking structure 6, and when the second subframe 32 rotates to a vertical state, the second locking structure 6 is suitable for locking and matching with the first locking structure 5. Specifically, when the outer machine 11 and the second sub-frame 32 rotate to the vertical position, so that the window air conditioner 100 is switched to the normal working state, the first locking structure 5 and the second locking structure 6 are locked and matched to limit the second sub-frame 32 to be non-rotatable relative to the first sub-frame 31, and the outer machine 11 can be prevented from rotating relative to the first sub-frame 31 through the matching of the first guide structure 14 and the second guide structure 4, so that the stability of the normal working of the window air conditioner 100 can be ensured. When the first locking structure 5 is disengaged from the second locking structure 6, the second subframe 32 can rotate freely relative to the first subframe 31, and the outer machine part 11 can be lifted in a rotating manner, so that the disassembly is convenient to realize.

It should be noted that, the specific configurations of the first locking structure 5 and the second locking structure 6 are not limited, for example, in conjunction with fig. 20 and 21, one of the first locking structure 5 and the second locking structure 6 is an elastic locking pin mechanism, and the other includes a locking hole 61. Therefore, the window type air conditioner 100 is simple in structure, convenient to lock, favorable for unlocking and convenient to install and detach. It should be noted that, the elastic latch mechanism described herein refers to: the lock comprises an elastic element 51 and a lock pin 52, wherein the elastic element 51 pushes the lock pin 52 to be in a normal locking state, when the lock hole 61 is about to move to a locking position, the lock pin 52 can be pushed to compress the elastic element 51, when the lock hole 61 is aligned with the lock pin 52, the elastic element 51 can push the lock pin 52 to enter the lock hole 61, and the head of the lock pin 52 can be spherical, so that unlocking is facilitated. In addition, in order to ensure the effectiveness of the cooperation of the locking pin 52 with the locking hole 61, the capturing structure comprising the locking hole 61 may also comprise a guiding structure 62, and the guiding structure 62 is used for guiding the locking pin 52 to move towards the direction of the compression elastic element 51, so as to ensure that the locking is reliably achieved.

Example two

As shown in fig. 22 and 23, the first guide structure 14 includes a third guide rail 14b and a fourth guide rail 14c, the third guide rail 14b is provided at the bottom 131 of the connection portion, the fourth guide rail 14c is provided at the back 111 of the outer machine portion, the inner end of the third guide rail 14b is configured as a stopper 141, the second guide structure 4 includes a fifth guide rail 4b, and the fifth guide rail 4b is provided at the first frame portion 2.

Thus, when the window air conditioner 100 is assembled, the outer machine part 11 may be rotated to a state in which the back is horizontal, and then the window air conditioner 100 is pushed outward, so that the fourth rail 14c is engaged with the fifth rail 4b (for example, as shown in fig. 24), thereby pushing the window air conditioner 100 outward more stably, and then, when the fourth rail 14c is disengaged from the fifth rail 4b, the third rail 14b is engaged with the fifth rail 4b again (for example, as shown in fig. 25), so as to continue to stably push the window air conditioner 100 as a whole to move outward (or only the outer machine part 11 is pushed to move outward by the stretching of the connecting part 13, but the inner machine part 12 is not moved outward), until the stopper 141 at the inner end of the third rail 14b is in abutting engagement with the inner end of the fifth rail 4b (for example, as shown in fig. 25), and the window air conditioner 100 is stopped. Thereafter, the outer machine part 11 may be rotated downward until the window air conditioner 100 is shifted to a use state (for example, as shown in fig. 26).

Optionally, the second frame part 3 is non-rotatable relative to the first frame part 2, and a damping mechanism is arranged between the outer machine part 11 and the connecting part 13, so as to provide resistance for preventing the outer machine part 11 from rotating downwards to the outer machine part 11, so that the outer machine part 11 can stably fall, the dangers of collision and the like caused by too high rotation falling speed are avoided, and the installation safety is improved. It should be noted that the type of the damping mechanism is not limited, and for example, a spring damping mechanism, a hydraulic damping mechanism, or the like may be used, thereby improving the flexibility of design.

Alternatively, as shown in fig. 22 and 23, in the embodiment of the present invention, the third guide rails 14b may be provided in two and distributed at both lateral side edges of the connecting portion 13, the fourth guide rails 14c may be provided in two and distributed at both lateral side edges of the outer machine portion 11, each of the third guide rails 14b and the fourth guide rails 14c may be configured as the outer guide rails 142, and correspondingly, the first frame portions 2 may be provided in two and laterally spaced apart, each of the first frame portions 2 may be provided with the fifth guide rails 4b on the lateral outer side thereof, and each of the fifth guide rails 4b may be configured as the inner guide rails 41.

As shown in fig. 27-28, the second frame portion 3 is provided with a first locking structure 5, the fourth guide rail 14c is provided with a second locking structure 6, and when the outer machine portion 11 rotates to a use state (for example, as shown in fig. 26 and 28), the second locking structure 6 is in locking fit with the first locking structure 5. Specifically, when the outer machine portion 11 rotates to the use state, the first locking structure 5 and the second locking structure 6 are locked and matched, so as to limit the outer machine portion 11 not to rotate relative to the second frame portion 3, and therefore stability of normal operation of the window air conditioner 100 can be ensured. When the first locking structure 5 is disengaged from the second locking structure 6, the outer machine part 11 can rotate freely relative to the second frame part 3, and the outer machine part 11 can rotate and lift up, so that the disassembly is convenient to realize.

It should be noted that the specific configuration of the first locking structure 5 and the second locking structure 6 is not limited, and one of the first locking structure 5 and the second locking structure 6 is an elastic locking pin mechanism, and the other includes a locking hole 61. Therefore, the window type air conditioner 100 is simple in structure, convenient to lock, favorable for unlocking and convenient to install and detach. It should be noted that, the specific structure of the elastic latch mechanism may refer to the description of the first embodiment, and will not be repeated herein.

The specific configuration of the mounting bracket 200 according to the window air conditioner assembly 1000 of the embodiment of the present invention is not limited, and for example, in some embodiments, as shown in fig. 2 and 4, and as shown in fig. 23 and 29, the mounting bracket 200 may further include a third frame portion 7 connected to the first frame portion 2, the third frame portion 7 being adapted to be disposed indoors and interposed between the wall a and the inner machine portion 12. Thereby, the lower supporting and/or outer supporting effect of the inner machine part 12 and the like can be achieved by the design of the third frame part 7.

That is, when the window air conditioner assembly 1000 is in the use state, the mounting bracket 200 is mounted to the window B, and the first frame part 2 is located on the window sill C and below the connection part 13, for example, the connection part 13 may be supported by the first frame part 2, or there may be no supporting relationship between the first frame part 2 and the connection part 13. Meanwhile, the second frame 3 is located outside the room and between the back 111 of the outer machine and the wall a, for example, the second frame 3 may be used to stop the outer machine 11, or there may be no abutting relationship between the second frame 3 and the outer machine 11. Meanwhile, the third frame 7 is located on the indoor side and between the back of the inner machine 12 and the wall a, for example, the third frame 7 may be used to stop the inner machine 12, or there may be no abutting relationship between the third frame 7 and the inner machine 12.

The mounting bracket 200 according to the embodiment of the present invention is not limited thereto, i.e., the third frame part 7 may not be included. As shown, for example, in connection with fig. 30-34, the mounting bracket 200 may include a raised structure 8, the raised structure 8 being adapted to be supported on a sill C and connect the sill C with the first frame portion 2. Thus, the third frame portion 7 can be omitted, and the mounting bracket 200 can be mounted for different window sill C by providing the raising structure 8. For example, the elevating structure 8, the window sill C and the first frame 2 may be mounted by screws 84.

The specific configuration of the spacer structure 8 is not limited, and may be composed of a plurality of spacers, for example, and a suitable number of spacers may be selected according to the height of the sill C, and the heights of the plurality of spacers may be equal or different, and the shapes of the plurality of spacers may be the same or different. For example, at least two blocks are engaged by a cambered surface, so that the relative positions of the two blocks can be adjusted to adapt to different inclinations of the windowsill C.

For example, referring to fig. 33-35, the raising structure 8 may include a first cushion block 81, a second cushion block 82 and a third cushion block 83, where the first cushion block 81 is located between the second cushion block 82 and the first frame 2, the third cushion block 83 is located between the second cushion block 82 and the windowsill C, a side surface of the second cushion block 82 facing the third cushion block 83 is a convex arc surface, a side surface of the third cushion block 83 facing the second cushion block 82 is a concave arc surface, a round hole 821 is formed on the second cushion block 82, an oblong hole 831 is formed on the third cushion block 83, and a screw 84 penetrates through the first cushion block 81, the round hole 821 and the oblong hole 831, and by adjusting a relative matching position of the third cushion block 83 and the second cushion block 82, windowsill C with different inclinations can be adapted.

In some embodiments of the present invention, as shown in fig. 15, a guide block 91 may be provided between the first frame part 2 and the second frame part 3, the guide block 91 having a slope extending obliquely upward from inside to outside. Therefore, the outer machine part 11 can smoothly move outwards, and the problems of blocking and stopping at the joint of the first frame part 2 and the second frame part 3 can be avoided.

In some embodiments of the present invention, as shown in fig. 15, the mounting bracket 200 is provided at both lateral sides thereof with guide members 92, respectively, and the guide members 92 have first and second guide slopes 921 and 922 spaced apart in the inward and outward directions. The first guiding inclined surfaces 921 on the two sides define a first opening which is gradually expanded towards the inner side, so that when the outer machine part 11 is installed, the outer machine part 11 can enter the first opening outwards and move outwards under the guidance of the guiding pieces 92 on the two sides, and the problems that the outer machine part 11 is inclined and falls off along the transverse direction are avoided. The second guiding inclined surfaces 922 on the two sides define a second opening which is gradually expanded towards the outer side, so that when the outer machine part 11 is disassembled, the outer machine part 11 can enter the second opening inwards and move inwards under the guidance of the guiding pieces 92 on the two sides, and the problems that the outer machine part 11 is deflected and falls off along the transverse direction and the like are avoided.

Other constructions and operations of the window air conditioner assembly 1000 according to an embodiment of the present invention are known to those of ordinary skill in the art and will not be described in detail herein.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present invention, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A window air conditioner assembly, comprising:

the window type air conditioner comprises an outer machine part suitable for being arranged outdoors, an inner machine part suitable for being arranged indoors and a connecting part for connecting the outer machine part and the inner machine part, wherein the outer end of the connecting part is rotationally connected with the inner end of the upper part of the outer machine part, and a first guide structure is arranged at the bottom of the connecting part and/or on the back of the outer machine part;

the mounting bracket comprises a first frame part and a second frame part which are connected, wherein the first frame part is suitable for being arranged on a windowsill and is positioned below the connecting part, the second frame part is suitable for being arranged outdoors and is clamped between a wall body and the outer machine part, a second guide structure is arranged on the first frame part and/or the second frame part, the second guide structure is suitable for being matched with the first guide structure to guide the window type air conditioner to slide inside and outside the mounting bracket relatively, and one of the first guide structure and the second guide structure is provided with a stop part which is suitable for being matched with the other stop part to limit the limit outward movement position of the window type air conditioner.

2. The window air conditioner assembly of claim 1, wherein the stop is located at an inner end of the first guide structure, the stop being adapted to stop-mate with the inner end of the second guide structure; alternatively, the stop portion is located at an outer end of the second guide structure, and the stop portion is adapted to be in stop fit with an outer end of the first guide structure.

3. The window air conditioner assembly according to claim 1, wherein the first guide structures are respectively arranged on two lateral sides of the window air conditioner, the second guide structures are respectively arranged on two lateral sides of the mounting bracket, and the second guide structures on the corresponding sides are in guide fit with the first guide structures.

4. The window air conditioner assembly of claim 3, wherein the first guide structure includes an outer rail defining a laterally inwardly open chute, and the second guide structure includes an inner rail including a slide portion and a stop portion, the slide portion being inserted into the chute, the stop portion being connected to the slide portion and stopping laterally inwardly of the outer rail.

5. The window air conditioner assembly of claim 1, wherein the first guide structure comprises a first guide rail provided at a back of the outer machine portion, an inner end of the first guide rail is configured as the stopper portion, the second frame portion comprises a first sub-frame and a second sub-frame, the first sub-frame is vertically arranged, an inner end of the second sub-frame is rotatably connected with an outer end of the first frame portion, the second guide structure comprises a second guide rail provided at the second sub-frame.

6. The window air conditioner assembly of claim 5, wherein the first subframe is provided with a first latching structure, the second subframe is provided with a second latching structure, and the second latching structure is adapted to cooperate with the first latching structure when the second subframe is rotated to the upright position.

7. The window air conditioner assembly according to claim 1, wherein the first guide structure includes a third guide rail and a fourth guide rail, the third guide rail is provided at a bottom of the connection portion, the fourth guide rail is provided at a back of the outer machine portion, an inner end of the third guide rail is configured as the stopper portion, the second guide structure includes a fifth guide rail, and the fifth guide rail is provided at the first frame portion.

8. The window air conditioner assembly of claim 7, wherein the second frame portion is provided with a first capture structure, the fourth rail is provided with a second capture structure, and the second capture structure is adapted to capture the first capture structure when the outer machine portion is rotated into use.

9. The window air conditioner assembly of claim 6 or 8, wherein one of the first capture structure and the second capture structure is a resilient latch mechanism and the other includes a latch aperture.

10. The window air conditioner assembly of any one of claims 1-8, wherein the mounting bracket includes a third frame portion connected to the first frame portion, the third frame portion adapted to be positioned indoors and sandwiched between a wall and the inner machine portion; alternatively, the mounting bracket includes a raised structure adapted to be supported on the sill and connect the sill with the first frame portion.