CN219063749U - Mounting bracket for air conditioner and air conditioner assembly - Google Patents

Abstract

The utility model discloses a mounting bracket for an air conditioner and an air conditioner assembly, wherein the mounting bracket comprises: the middle frame is suitable for being arranged on the windowsill, and comprises an inner mounting piece, an outer mounting piece and a heat insulation piece, wherein the inner mounting piece is suitable for being used for mounting parts which are at least partially positioned on the inner side of the windowsill, and/or the outer mounting piece is suitable for being used for being mounted parts which are at least partially positioned on the outer side of the windowsill, the heat insulation piece comprises a first separation part which is arranged between the inner mounting piece and the outer mounting piece, and the inner mounting piece and the outer mounting piece are fixedly connected through a fastener. From this, with interior installed part and outer installed part spaced apart through the first partition of insulating part, can improve the temperature regulation effect and the temperature regulation efficiency of air conditioner subassembly, the insulating part, interior installed part and outer installed part pass through the fastener fixed simultaneously, can improve fixed stability, even if the insulating part breaks, interior installed part also links to each other with outer installed part is stable, and the security and the reliability in the transportation and the use are all higher.

Description

Mounting bracket for air conditioner and air conditioner assembly

Technical Field

The utility model relates to the technical field of air conditioners, in particular to a mounting bracket for an air conditioner and an air conditioner assembly.

Background

In the related art, the window air conditioner fixes the outer machine part through the traction action of the middle connecting piece by arranging the middle connecting piece.

However, the window air conditioner has a large volume, the external machine part has a large weight, the external machine part cannot be stably fixed, and the heat insulation effect is poor, so that the window air conditioner has poor use experience.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art. The utility model is based on the object of providing a mounting bracket for an air conditioner, which has high reliability and good heat insulation.

The utility model also provides an air conditioner assembly with the mounting bracket.

According to an embodiment of the first aspect of the present application, a mounting bracket for an air conditioner includes: the middle frame, the middle frame is suitable for to be established on the windowsill, just the middle frame includes interior installed part, outer installed part and thermal-insulated piece, interior installed part is suitable for the installation and is located the part of windowsill inboard at least partially, and/or outer installed part is suitable for the installation and is located the part of windowsill outside at least partially, wherein, thermal-insulated piece include locate interior installed part with first partition portion between the installed part of outer, interior installed part with the installed part of outer passes through fastener fixed connection.

According to the air conditioner assembly of the embodiment of the application, the first separation part of the heat insulation part is used for separating the inner installation part from the outer installation part, so that the heat insulation between the indoor side and the outdoor side can be realized, the temperature regulation effect and the temperature regulation efficiency of the air conditioner assembly are improved, meanwhile, the heat insulation part, the inner installation part and the outer installation part are fixed through the fastening piece, the fixing stability can be improved, even if the heat insulation part breaks, the inner installation part and the outer installation part can be stably connected, and the safety and the reliability in the transportation process and the use process are higher.

According to some embodiments of the present application, the inner mounting member is provided with a first connecting portion, the outer mounting member is provided with a second connecting portion corresponding to the first connecting portion, the first separating portion is clamped between the second connecting portion and the first connecting portion, and the fastener sequentially penetrates through the first connecting portion, the first separating portion and the second connecting portion.

Further, the first connecting portions are multiple and are arranged at intervals, and the second connecting portions are arranged in one-to-one correspondence with the first connecting portions.

Further, the outer mounting piece includes two first portions that extend along vertical and set up along horizontal interval, the outer mounting piece still includes along horizontal extension and connect two the second portion of the vertical outer end of first portion, two first portions are located the horizontal both sides of interior mounting piece, the second portion is located the vertical outside of interior mounting piece, the horizontal both sides of the vertical inner of interior mounting piece are equipped with respectively first connecting portion, the horizontal both ends of the vertical outer end of interior mounting piece also are equipped with respectively first connecting portion.

Further, each of the first connecting portions is provided with a plurality of the fasteners.

In some embodiments, the insulation further comprises a second insulation portion that is externally wrapped around the inner and outer mounts.

According to some embodiments of the application, the insulation is a single piece, and the inner and outer mounts are fitted to the insulation separately.

Further, the heat insulating member is formed with an inner chamber open toward the inside and an outer chamber open toward the outside, the inner chamber is isolated from the outer chamber by the first partition, the inner mount is fitted to the inner chamber, and the outer mount is fitted to the outer chamber.

Further, the fastener includes a first screw penetrating the inner mount from inside to outside and screwed to the outer mount, and/or a second screw penetrating the outer mount from outside to inside and screwed to the inner mount.

In some embodiments, the inner mount and the outer mount are sheet metal parts.

According to some embodiments of the application, the mounting bracket further comprises: and the inner stop piece is in sliding fit with the inner mounting piece along the inner and outer directions, and is provided with an inner stop part which is suitable for stopping on an inner wall to limit the mounting bracket to move to the outdoor side when the inner stop piece moves to the outer limit position.

In some embodiments, the inner mount defines a first guide slot extending in a longitudinal direction, and the inner stop has a first guide rail extending in the longitudinal direction, the first guide rail being insertable into the first guide slot to guide the inner stop to be slidable in an inner and outer direction relative to the inner mount.

Further, a first long strip hole extending longitudinally is formed in the groove wall of the first guide groove, a first limiting piece is arranged on the first guide rail, and the first limiting piece slides along the first long strip hole.

Further, the first guide grooves are multiple and are arranged at intervals in the transverse direction, and each first guide groove is matched with the first guide rail.

Further, the inner stopper is provided with a plurality of first locking holes arranged at intervals along the longitudinal direction, the inner mounting piece is provided with first positioning holes, and the first positioning holes can be aligned with any first locking holes and are locked through the first locking pieces.

According to some embodiments of the application, the mounting bracket further comprises: and the outer stop piece is in sliding fit with the outer mounting piece along the inner and outer directions, and is provided with an outer stop part so as to be suitable for stopping the outer wall to limit the mounting bracket to move to the indoor side when the outer stop piece moves to the inner limit position.

Further, the outer mounting member defines a second guide slot extending in a longitudinal direction, and the outer stopper has a second guide rail extending in the longitudinal direction, the second guide rail being inserted into the second guide slot to guide the outer stopper to be slidable in an inner and outer direction with respect to the outer mounting member.

Further, a second long strip hole extending longitudinally is formed in the groove wall of the second guide groove, a second limiting piece is arranged on the second guide rail, and the second limiting piece slides along the second long strip hole.

Further, the second guide grooves are multiple and are arranged at intervals in the transverse direction, and each second guide groove is matched with the second guide rail.

Optionally, the outer stopper has a plurality of second locking holes arranged at intervals in the longitudinal direction, and the outer mounting member has second positioning holes thereon, and the second positioning holes are alignable with any of the second locking holes and are locked by the second locking pieces.

In some embodiments, the mounting bracket further comprises: the support frame is fixedly connected with the outer mounting piece, and the movable frame is suitable for supporting an outer wall and is in sliding fit with the support frame along the inner and outer directions.

Further, the support frame is provided with a third guide groove extending along the longitudinal direction, and the movable frame is inserted in the third guide groove to guide the movable frame to slide along the inner and outer directions relative to the support frame.

Further, the movable frame is provided with a plurality of third locking holes which are arranged at intervals along the longitudinal direction, the supporting frame is provided with third positioning holes, and the third positioning holes can be aligned with any third locking holes and are locked by third locking pieces.

Further, the two supporting frames are respectively located on two lateral sides of the outer mounting piece, and each supporting piece is matched with the movable frame.

Optionally, the mounting bracket further comprises: the rotating frame is suitable for being arranged outdoors and is in rotating fit with the movable frame.

An air conditioner assembly according to an embodiment of a second aspect of the present application includes: an air conditioner and the mounting bracket for an air conditioner described in the above embodiments for mounting the air conditioner to a window.

Further, the air conditioner is a window type air conditioner and comprises an outer machine part, an inner machine part and a connecting part, wherein the inner machine part is suitable for being arranged indoors, the outer machine part is suitable for being arranged outdoors, and the connecting part is connected to the upper part between the outer machine part and the inner machine part and is arranged above the middle frame.

Additional aspects and advantages of the utility model 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 utility model.

Drawings

FIG. 1 is a schematic view of a mounting bracket according to an embodiment of the present utility model;

FIG. 2 is a schematic illustration of the disassembly of a mounting bracket according to an embodiment of the utility model;

FIG. 3 is a schematic cross-sectional view of an insulation barrier according to an embodiment of the present application;

FIG. 4 is a schematic view of an inner mount according to an embodiment of the present application;

fig. 5 is a schematic view of an air conditioner assembly according to an embodiment of the present application.

Reference numerals:

the air conditioner assembly 1000 is configured such that,

mounting bracket 100, outer machine portion 200, inner machine portion 300, connecting portion 400,

the intermediate frame 10, the inner mounting member 11, the first connecting portion 111, the first guide groove 112, the first elongated hole 113, the first positioning hole 114, the outer mounting member 12, the second connecting portion 121, the first portion 122, the second portion 123, the second guide groove 124, the second elongated hole 125, the second positioning hole 126, the heat insulating member 13, the first partition portion 131,

an inner stopper 20, an inner stopper 21, a first guide rail 22, a first locking hole 23,

an outer stopper 30, an outer stopper 31, a second guide rail 32, a second locking hole 33,

A support 40, a third positioning hole 41,

the movable frame 50, the third locking hole 51,

the rotating frame 60 is provided with a plurality of rotating grooves,

an inner cavity a and an outer cavity b.

Detailed Description

Embodiments of the present utility model 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 utility model and should not be construed as limiting the utility model.

The following disclosure provides many different embodiments, or examples, for implementing different structures of the utility model. 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 utility model. Furthermore, the present utility model 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 utility model 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.

The mounting bracket 100 and the air conditioner assembly 1000 according to the embodiment of the present application are described below with reference to fig. 1 to 5.

It should be noted that, in the prior art, the external unit 200 of the window air conditioner (i.e., the external unit of the window air conditioner) is generally fixed to the window sill through an intermediate connector (such as the intermediate frame 10 in the embodiment of the present application). However, when the user is on a higher floor, after the outer machine part 200 is lifted to the height of the windowsill, the difficulty of the installation operation of moving out from the inside of the window to the outside of the window is high, and the installation operation belongs to high-altitude operation, has a certain danger and has potential safety hazards.

Based on this, this application provides a installing support 100, and installing support 100 can realize outdoor part in indoor outdoor installation, and the potential safety hazard is low, and the operation degree of difficulty is low.

As shown in fig. 1 and 2, a mounting bracket 100 for an air conditioner according to an embodiment of a first aspect of the present application includes: a middle frame 10.

Wherein the intermediate frame 10 is adapted to be disposed on a window sill, and the intermediate frame 10 comprises an inner mounting member 11, an outer mounting member 12 and a heat insulating member 13, wherein the inner mounting member 11 is adapted to mount a part at least partially located inside the window sill, and/or the outer mounting member 12 is adapted to mount a part at least partially located outside the window sill, the heat insulating member 13 comprises a first partition 131 disposed between the inner mounting member 11 and the outer mounting member 12, and the inner mounting member 11 and the outer mounting member 12 are fixedly connected by a fastener.

It can be understood that the window type air conditioner is suitable for being arranged on a window for use, the inside and outside direction of the window (namely, the direction penetrating the window) is longitudinal, the length direction of the window is transverse, and the height direction of the window is vertical.

In short, when the window air conditioner is in a use state, the inner unit 300 and the outer unit 200 are spaced apart in an inner and outer direction, the inner unit 300 is disposed at an indoor side for adjusting an indoor environment temperature or the like, and the excavator is disposed at an outdoor side for exchanging heat with an outdoor environment.

This application sets up interior installed part 11 and outer installed part 12, and interior installed part 11 and outer installed part 12 at least part are relative at indoor side and outdoor side, can realize the centre gripping to the wall body through both to improve the fixed stability and the reliability of installing support 100 on the window.

It should be noted that the parts inside the window sill include: the mounting bracket 100 itself of the indoor side part has parts of the indoor unit 300 and parts of the indoor unit 300, and parts of the sill outside include: the outdoor side part is installed on its own parts, the inner machine part 300 and parts of the inner machine part 300, and the inner mounting member 11 may be used for installing the inner machine part 300 in parallel to fix the mounting bracket 100 on the inside of the wall, or only fix the mounting bracket 100 on the inside of the wall, and the corresponding outer mounting member 12 may be used for installing the outer machine part 200 in parallel to fix the mounting bracket 100 on the outside of the wall, or only fix the mounting bracket 100 on the outside of the wall.

It can be understood that the heat exchange between the inner unit 300 and the indoor environment can affect the temperature of the inner unit 11, the heat exchange between the outer unit 200 and the outdoor environment can affect the temperature of the outer unit 12, and if the two units are in direct contact, heat exchange and heat transfer can occur between the inner unit 11 and the outer unit 12, which can affect the working efficiency of the inner unit 300 and the outer unit 200, affect the working effect of the air conditioner, and reduce the use experience.

Based on this, the application further sets up thermal-insulated piece 13, and thermal-insulated piece 13 includes at least and is located interior installed part 11 and outer installed part 12 between first partition portion 131, separates interior installed part 11 and outer installed part 12 through first partition portion 131 to avoid appearing the heat transfer between the two, so that interior machine portion 300 can not influence each other with outer machine portion 200, can improve the result of use of air conditioner.

Specifically, the intermediate frame 10 includes the heat insulating member 13, the heat insulating member 13 may be configured as a bridge cut-off structure, and the heat insulating member 13 extends in the length direction of the window sill, may space the connection portion 400 between the inner machine portion 300 and the outer machine portion 200 from the window sill, block and reduce heat transfer between the connection portion 400 and the window sill to improve working stability of the window air conditioner, and by providing the heat insulating member 13, an upper side surface of the heat insulating member 13 may be configured as a plane, also facilitate sealing of the window, effectively space the indoor space from the outdoor space, may also improve a temperature adjustment effect of the window air conditioner on the indoor space, and may also further improve a temperature adjustment effect of the air conditioner by blocking the heat transfer between the inner mounting member 11 and the outer mounting member 12 by the heat insulating member 13.

It should be noted that the heat insulating member 13 may be configured as a bridge-cut plate, that is, a plurality of chambers may be disposed in the heat insulating member 13 to define a plurality of spaced micro chambers inside the heat insulating member 13, so that the heat insulating effect of the heat insulating member 13 may be improved, the heat insulating member 13 has higher structural strength, is convenient for sealing a window, and improves the sealing and heat insulating effects, and the heat insulating member 13 may be made of ABS material (english name: acrylonitrile Butadiene Styrene, chinese name: acrylonitrile-butadiene-styrene copolymer).

More importantly, the inner mounting piece 11, the outer mounting piece 12 and the heat insulating piece 13 are fixedly connected through fasteners, namely, the inner mounting piece 11 and the heat insulating piece 13 are used for jointly towing the outer mounting piece 12 and the components (comprising the outer machine part 200) indirectly or directly arranged on the outer mounting piece 12, so that the outer machine part 200 can be better fixed, the fixing stability and reliability of the outer machine part 200 are improved, and meanwhile, even if the heat insulating piece 13 breaks, the inner mounting piece 11 positioned on the indoor side can be used for towing the outer mounting piece 12, the outer machine part 200 is prevented from falling off, and the safety and reliability are improved.

According to the air conditioner assembly 1000 of the embodiment of the application, the first partition 131 of the heat insulating member 13 is used for spacing the inner mounting member 11 from the outer mounting member 12, so that heat insulation between the indoor side and the outdoor side can be realized, the temperature adjusting effect and the temperature adjusting efficiency of the air conditioner assembly 1000 are improved, meanwhile, the heat insulating member 13, the inner mounting member 11 and the outer mounting member 12 are fixed through the fasteners, the fixing stability can be improved, even if the heat insulating member 13 breaks, the inner mounting member 11 and the outer mounting member 12 can be stably connected, and the safety and the reliability in the transportation process and the use process are higher.

As shown in fig. 2 and 3, according to some embodiments of the present application, the inner mounting member 11 has a first connection portion 111 thereon, the outer mounting member 12 has a second connection portion 121 disposed corresponding to the first connection portion 111 thereon, a first partition portion 131 is interposed between the second connection portion 121 and the first connection portion 111, and a fastener sequentially penetrates the first connection portion 111, the first partition portion 131, and the second connection portion 121.

Specifically, the heat insulating member 13 is configured as a hollow plate body including a bottom plate attached to the window sill, a top plate attached to the connecting portion 400, and side plates provided on the top plate and the bottom plate, not limited to being formed on edges of the top plate and the bottom plate, may be divided into a plurality of areas by providing the side plates between the top plate and the bottom plate to divide a space defined by the top plate and the bottom plate into a plurality of areas, one of which is used for accommodating at least part of the inner mounting member 11 and the other of which is used for accommodating at least part of the outer mounting member 12, so as to realize the interval arrangement of the inner mounting member 11 and the outer mounting member 12.

In other words, the side plate is formed as the first partition 131 to partition the heat insulating member 13 into at least two areas, the two areas are respectively used for accommodating at least part of the inner mounting member 11 and at least part of the outer mounting member 12, so as to realize heat insulation between the inner mounting member 11 and the outer mounting member 12, and simultaneously, the fasteners sequentially penetrate through the inner mounting member 11, the heat insulating member 13 and the outer mounting member 12 in the areas where the inner mounting member 11, the heat insulating member 13 and the outer mounting member 12 are connected through the fasteners; or the outer mounting piece 12, the heat insulating piece 13 and the inner mounting piece 11 are sequentially penetrated, so that stable connection of the three is realized, and meanwhile, the inner mounting piece 11 and the outer mounting piece 12 are ensured to be spaced apart from each other in the connecting area of the fastening pieces, and the heat insulating effect of the heat insulating piece 13 can be further improved.

As shown in fig. 2 and fig. 4, the first connection portions 111 are plural and arranged at intervals, and the second connection portions 121 are arranged in one-to-one correspondence with the first connection portions 111.

Specifically, a plurality of mounting ears may be disposed on the inner mounting member 11, each of the mounting ears may be formed as a first connection portion 111, a plurality of mounting ears may be disposed on the corresponding outer mounting member 12, each of the mounting ears may be formed as a second connection portion 121, and the first connection portion 111 and the second connection portion 121 may extend in the height direction to be attached to the side plate, so that the connection stability and reliability of the inner mounting member 11, the outer mounting member 12, and the heat insulating member 13 may be improved.

Illustratively, four first connecting portions 111 are formed on the inner mounting member 11, two first connecting portions 111 are located on a side of the inner mounting member 11 away from the outer mounting member 12, two first connecting portions 111 formed on a side of the inner mounting member 11 adjacent to the outer mounting member 12 and adjacent to the outer mounting member 12 are connected, four second connecting portions 121 are formed on a corresponding outer mounting member 12, two second connecting portions 121 are located on a side of the outer mounting member 12 adjacent to the inner mounting member 11, two second connecting portions 121 formed on a side of the outer mounting member 12 away from the inner mounting member 11 and on a side away from the inner mounting member 11 are connected, so that the inner mounting member 11 and the outer mounting member 12 are stably and reliably connected through the four corresponding first connecting portions 111 and the second connecting portions 121, respectively, and structural stability and use reliability of the mounting bracket 100 can be further improved.

In the embodiment shown in fig. 4, further, the outer mounting member 12 includes two first portions 122 extending in the longitudinal direction and disposed at intervals in the lateral direction, the outer mounting member 12 further includes a second portion 123 extending in the lateral direction and connecting the longitudinally outer ends of the two first portions 122, the two first portions 122 are disposed on both lateral sides of the inner mounting member 11, the second portion 123 is disposed on both longitudinal sides of the inner mounting member 11, both lateral sides of the longitudinally inner end of the inner mounting member 11 are respectively provided with the first connecting portions 111, and both lateral ends of the longitudinally outer end of the inner mounting member 11 are also respectively provided with the first connecting portions 111.

The projection profile of the outer mounting member 12 in the height direction is generally in a "U" shape, that is, the second portion 123 of the outer mounting member 12 is disposed opposite to the inner mounting member 11 at the outdoor side, and two ends of the second portion 123 are provided with first portions 122 extending inward to connect with the inner mounting member 11 and the heat insulating member 13, and the two first portions 122 are disposed at intervals in the length direction of the window sill.

Further, the heat insulator 13 may define two outer insertion spaces open on the outside, into which the corresponding first portions 122 are inserted, and be disposed at a distance from the inner burying member by the side plates defining the outer insertion spaces, while at least part of the inner mounting member 11 is located between the two first portions 122, the heat insulator 13 having one inner insertion space open on the inside, and the portion of the inner mounting member 11 located between the two first portions 122 may be inserted into the inner insertion spaces to dispose the inner mounting member 11 and the outer mounting member 12 at a distance from each other by the side plates between the inner insertion spaces and the outer insertion spaces.

Meanwhile, the second connecting portion 121 is disposed on one side of the first portion 122 inserted into the outer insertion space, the first connecting portion 111 bent toward the first portion 122 in the longitudinal direction is disposed on the inner mounting member 11, the first connecting portion 111 is disposed on one side of the inner mounting member 11 inserted into the inner insertion space, the second connecting portion 121 is disposed on the second portion 123 of the outer mounting member 12, and the second connecting portion 111 is connected to the side plate.

Therefore, in the inner and outer directions, the inner mounting piece 11 and the outer mounting piece 12 are fixed at multiple points, the projections of the multiple fixing points in the longitudinal direction are arranged at intervals, and the projections in the transverse direction are also arranged at intervals, so that the stress can be effectively improved, the traction stability and reliability of the outer mounting piece 12 and the firmware directly or indirectly arranged on the outer mounting piece 12 are improved, the stress is more uniform, and the offset phenomenon of the outer machine part 200 and the outer mounting piece 12 is avoided.

As shown in fig. 1 and 2, further, each first connection portion 111 is provided with a plurality of fasteners.

Specifically, two or more fixing holes may be disposed on each first connecting portion 111, two or more fixing holes may be disposed on the corresponding second connecting portion 121 and the side plate of the heat insulating member 13, so that each first connecting portion 111 and each second connecting portion 121 are fixed by a plurality of fasteners, and the plurality of fixing holes may be disposed at intervals in the lateral direction and the height direction, so that not only stable and reliable connection of the inner mounting member 11, the heat insulating member 13 and the outer mounting member 12, but also limitation of the outer mounting member 12 in the height direction and the lateral direction may be achieved, and stability and reliability of the mounting bracket 100 may be further improved.

As shown in fig. 3, in some embodiments, the insulation 13 further includes a second insulation portion that is wrapped outside of the inner and outer mounts 11, 12.

Specifically, the bottom plate of the heat insulating member 13 is attached to the upper surface of the window sill, the top plate is attached to the lower surface of the connecting portion 400, the top plate and the bottom plate are formed into second heat insulating portions, which are respectively located at the upper side and the lower side of the inner mounting member 11 and the outer mounting member 12, at least part of the lateral ends of the inner side edges of the top plate and the bottom plate are connected through side plates, the middle part of the inner side edges is not provided with side plates so that the inner mounting member 11 extends into the heat insulating member 13, the lateral middle parts of the lateral edges of the corresponding top plate and bottom plate are provided with side plates, at least part of the lateral ends is not provided with side plates so that the first portion 122 extends into the heat insulating member 13, and a side plate extending in the longitudinal direction is further provided between the side plates of the lateral ends of the inner side edges and the side plates of the middle part of the outer side edges so as to space the inner insertion space where the inner mounting member is located and the outer insertion space where the outer mounting member is located are spaced apart, and the inner mounting member 11 and the outer mounting member 12 are effectively wrapped.

Therefore, the inner mounting piece 11 and the outer mounting piece 12 which are included by the heat insulating piece 13 can be effectively isolated from external components, heat exchange between the inner mounting piece 11 and/or the outer mounting piece 12 and surrounding components is avoided, heat exchange between a windowsill and the inner mounting piece 11 and heat exchange between the connecting part 400 and the outer mounting piece 12 can be avoided, heat insulating effect is further improved, temperature adjusting efficiency and temperature adjusting effect of the window air conditioner are improved, and energy consumption of the window air conditioner is improved.

As shown in fig. 3, according to some embodiments of the present application, the heat shield 13 is a single piece, and the inner mount 11 and the outer mount 12 are assembled to the heat shield 13, respectively.

Specifically, the heat insulating member 13 may be constructed as a bridge cut-off structure, and the inner and outer mounting members 11 and 12 are assembled to the heat insulating member 13 from the inner side of the heat insulating member 13 and the outer side of the heat insulating member 13, the structural strength and stability of the intermediate frame 10 may be improved, and the space occupation of the intermediate frame 10 during transportation may be made smaller to reduce the transportation cost.

In the embodiment shown in fig. 3, further, an inner chamber a opened toward the inside and an outer chamber b opened toward the outside are formed on the heat insulating member 13, the inner chamber a and the outer chamber b are isolated by the first partition 131, the inner mount 11 is fitted to the inner chamber a, and the outer mount 12 is fitted to the outer chamber b.

That is, the above-mentioned inner insertion space is an inner cavity a, the outer insertion space is an outer cavity b, the number of the inner cavities a is one, the number of the outer cavities b is two, the inner mounting member 11 is positioned between the two first portions 122, the two outer cavities b are respectively used for accommodating the two first portions 122, and the first separating portions 131 are corresponding to side plates extending longitudinally and transversely, which divide the inner cavities a and the outer cavities b into a space, so that the inner mounting member 11 and the outer mounting member 12 are simpler and more convenient to assemble on the heat insulating member 13 while realizing stable and reliable heat insulation, and the cooperation is more stable and reliable.

It will be appreciated that the fastener comprises a first screw extending from the inside of the inner mounting member 11 through the inner mounting member 11 and threaded to the outer mounting member 12, and/or a second screw extending from the outside of the outer mounting member 12 through the outer mounting member 12 from the outside of the outer mounting member 12 and threaded to the inner mounting member 11.

Specifically, the first connecting portion 111 located at the outer side and the second connecting portion 121 located at the inner side are provided with internal threads, the first screw sequentially penetrates through the first connecting portion 111 and the side plate from inside to outside and is in threaded fit with the second connecting portion 121 located at the inner side, the second screw sequentially penetrates through the second connecting portion 121 and the side plate from outside to inside and is in threaded fit with the first connecting portion 111 located at the outer side, so that detachable connection of the inner installation piece 11, the heat insulation piece 13 and the outer installation piece 12 is achieved, connection stability is improved, and detachment is simpler and more convenient.

It should be noted that the lengths of the first screw and the second screw may be the same or different, and are set according to the required fitting length, and the screw fitting of the embodiment of the present application is not limited thereto, and in other embodiments, projection nuts may be provided on the inner second connection portion 121 and the outer first connection portion 111, and the first screw and the second screw are correspondingly screw-fitted with the projection nuts.

In some embodiments, the inner mounting member 11 and the outer mounting member 12 are sheet metal members, so that the mounting bracket 100 is simpler in structure and lower in cost, and the sheet metal members and the bridge-breaking plate are fastened through the threads of the first screw and the second screw, so that the assembly stability and the reliability are higher.

As shown in fig. 1, the mounting bracket 100 further includes, according to some embodiments of the present application: and an inner stopper 20, the inner stopper 20 slidably engaged with the inner mounting member 11 in the inner and outer directions, the inner stopper 20 having an inner stopper portion 21 adapted to be stopped against an inner wall to restrict the mounting bracket 100 from moving to the outside of the room when the inner stopper 20 moves to the outer limit position.

Specifically, the inner stopper 20 is adapted to be stopped against an inner wall, the inner stopper 20 is placed in a window sill, the inner stopper 20 includes a horizontal plate portion slidably fitted with the inner mount 11 in the inner and outer directions, and a vertical plate portion formed as an inner stopper portion 21 for being pushed against the wall.

The interior installation component and interior backstop 20 sliding fit, the insulating part 13 is suitable for supporting in the windowsill, i.e. insulating part 13 is located the windowsill top, in order to support insulating part 13 through the windowsill in the direction of height, connecting portion 400 supports in insulating part 13, can set up the pencil that interior machine portion 300 is connected with outer machine portion 200, parts such as refrigerant pipe, and connecting portion 400 set up in insulating part 13 top, and support connecting portion 400 through insulating part 13, can avoid connecting portion 400 to appear buckling phenomenon, improve the stability of connecting portion 400 inside pencil and refrigerant pipe, avoid pencil and refrigerant pipe to appear buckling, also can improve window air conditioner's job stabilization nature and safety in utilization, and in window air conditioner's installation, intermediate frame 10 plays the effect of fixed connection portion 400 and transition outer machine portion 200, can improve outer machine portion 200's installation convenience.

Meanwhile, in the installation process of the installation bracket 100, the length of the inner stop piece 20 extending out of the inner installation piece 11 can be adjusted to adapt to walls with different longitudinal sizes, and the inner stop piece 20 pushes against the inner wall, so that the stability and reliability of the installation bracket 100 straddling the wall are improved.

As shown in fig. 2, in some embodiments, the inner mount 11 defines a first guide slot 112 extending in a longitudinal direction, and the inner stopper 20 has a first guide rail 22 extending in the longitudinal direction, the first guide rail 22 being inserted into the first guide slot 112 to guide the inner stopper 20 to be slidable in an inner and outer direction with respect to the inner mount 11.

That is, the first guide groove 112 is slidably engaged with the first guide rail 22, so that the adjustment of the relative position between the inner stopper 20 and the inner mounting member 11 is simpler and more convenient.

Further, the groove wall of the first guiding groove 112 is provided with a first elongated hole 113 extending along the longitudinal direction, the first guiding rail 22 is provided with a first limiting member, and the first limiting member slides along the first elongated hole 113.

Specifically, the first elongated hole 113 may define a sliding stroke of the inner stopper 20, the longitudinal inner end corresponds to a maximum stroke, the longitudinal outer end corresponds to a minimum stroke, and the first stopper may slide between the longitudinal inner end and the longitudinal outer end, so as to avoid the inner stopper 20 from falling out of the inner mounting member 11 through the cooperation of the first stopper and the first elongated hole 113, and improve the stability and reliability of the cooperation of the inner stopper 20 and the inner mounting member 11.

As shown in fig. 2, the first guide grooves 112 are plural and are disposed at intervals in the lateral direction, and each first guide groove 112 is fitted with the first guide rail 22.

Therefore, through the one-to-one guiding coordination of the plurality of first guiding grooves 112 and the plurality of first guiding rails 22 in the transverse direction, the motion stability of the inner stop piece 20 can be improved, the offset phenomenon of the inner stop piece 20 can be effectively avoided, the pushing reliability of the inner stop piece 20 on an inner wall body can be improved, and the fixing reliability of the mounting bracket 100 on the wall body can be improved.

Further, the inner stopper 20 has a plurality of first locking holes 23 provided at intervals in the longitudinal direction, and the inner mount 11 has first positioning holes 114 provided thereon, and the first positioning holes 114 are alignable with any of the first locking holes 23 and are locked by the first locking members.

Specifically, the first locking member may be configured as a latch, a spring pin, or the like, and after the inner stopper 20 moves to a suitable position in a longitudinal direction away from or toward the inner mounting member 11, the first stopper may sequentially pass through the first locking hole 23 and the first positioning hole 114, so as to limit the inner stopper 20 to a suitable position, improve the convenience of position adjustment of the inner stopper 20, and make the stability and reliability of the inner stopper 20 and the inner mounting member 11 after being adjusted to a suitable position kept at a relative position higher.

As shown in fig. 1 and 2, the mounting bracket 100 further includes: the outer stopper 30, the outer stopper 30 is slidably engaged with the outer mounting member 12 in the inner and outer directions, and the outer stopper 30 has an outer stopper 31 adapted to be stopped against the outer wall to restrict the mounting bracket 100 from moving to the indoor side when the outer stopper 30 moves to the inner limit position.

It should be noted that, the inner stopper 20 and the outer stopper 30 extend towards the same side (extend downwards), and respectively push against the inner wall and the outer wall to clamp the wall, so as to realize stable fixation of the mounting bracket 100 on the wall, further improve the fixation stability of the window air conditioner assembly 1000 on the mounting bracket 100, and the extension length of the inner stopper 20 is less than or equal to the extension length of the outer stopper 30, so that the clamping stability of the mounting bracket 100 on the wall can be improved.

As shown in fig. 5, the mounting process of the air conditioner assembly 1000 on the window sill is as follows: firstly, the inner stop piece 20 is fixed on the windowsill to push against the inner wall below the windowsill, the outer stop piece 30 is pushed against the outer wall below the windowsill, the outer machine part 200 is placed on the middle frame 10 and can be pushed away from the middle frame 10, the connecting part 400 correspondingly moves to the upper side of the middle frame 10, then the outer machine part 200 is turned over to be attached to the outer wall, the installation of the air conditioner assembly 1000 on the windowsill can be completed, and when the air conditioner assembly 1000 needs to be disassembled, the connecting part 400 is correspondingly pulled to enable the outer machine part 200 to move to the upper side of the middle frame 10.

Thereby, the mounting of the air conditioner assembly 1000 on the window sill can be improved.

Meanwhile, in the installation process of the installation support 100, the length of the outer stop piece 30 extending out of the outer installation piece 12 can be adjusted to adapt to walls with different longitudinal sizes, and the outer wall is pushed against by the outer stop piece 30, so that the stability and reliability of the installation support 100 straddling the wall are improved.

It will be appreciated that the distance between the outer stopper 30 and the inner stopper 20, i.e., the thickness of the wall, may be adjusted to a suitable distance before the mounting bracket 100 is assembled.

Further, the outer mounting member 12 defines a longitudinally extending second guide slot 124, and the outer stopper 30 has a longitudinally extending second guide rail 32, the second guide rail 32 being inserted into the second guide slot 124 to guide the outer stopper 30 to be slidable in an inner and outer direction relative to the outer mounting member 12.

That is, the second guide groove 124 is slidably engaged with the second guide rail 32, so that the adjustment of the relative position between the outer stopper 30 and the outer mounting member 12 is simpler and more convenient.

Further, the groove wall of the second guiding groove 124 is provided with a second elongated hole 125 extending along the longitudinal direction, the second guiding rail 32 is provided with a second limiting member, and the second limiting member slides along the second elongated hole 125.

Specifically, the second elongated hole 125 may define a sliding stroke of the inner stopper 20, the longitudinal inner end corresponds to a minimum stroke, the longitudinal outer end corresponds to a maximum stroke, and the second stopper may slide between the longitudinal inner end and the longitudinal outer end, so as to avoid the outer stopper 30 from falling out of the outer mounting member 12 through the cooperation of the second stopper and the second elongated hole 125, and improve the stability and reliability of the cooperation of the outer stopper 30 and the outer mounting member 12.

Further, as shown in fig. 2, the second guide grooves 124 are plural and arranged at intervals in the lateral direction, and each second guide groove 124 is fitted with the second guide rail 32.

Thus, by the one-to-one guiding cooperation of the plurality of second guiding grooves 124 and the plurality of second guiding rails 32 in the transverse direction, the motion stability of the outer stopper 30 can be improved, and the offset phenomenon of the outer stopper 30 can be effectively avoided, so that the pushing reliability of the outer stopper 30 on an outer wall body can be improved, and the fixing reliability of the mounting bracket 100 on the wall body can be improved.

Optionally, the outer stopper 30 has a plurality of second locking holes 33 spaced apart in the longitudinal direction, and the outer mounting member 12 has second positioning holes 126 thereon, the second positioning holes 126 being alignable with any of the second locking holes 33 and lockable by the second locking members.

Specifically, the second locking member may be configured as a latch, a spring pin, or the like, and after the outer stopper 30 moves away from or toward the outer mounting member 12 to a suitable position in the longitudinal direction, the second stopper may sequentially pass through the second locking hole 33 and the second positioning hole 126, so as to limit the outer stopper 30 to a suitable position, improve the convenience of position adjustment of the outer stopper 30, and make the stability and reliability of the outer stopper 30 and the outer mounting member 12 after being adjusted to a suitable position kept at a relative position higher.

In some embodiments, the mounting bracket 100 further comprises: the support frame 40 and the movable frame 50, the support frame 40 is fixedly connected with the outer mounting piece 12, and the movable frame 50 is suitable for supporting the outer wall and is in sliding fit with the support frame 40 along the inner and outer directions.

Specifically, the support frame 40 is connected with the outer mounting member 12 and can move synchronously with the outer mounting member 12, so that the relative position between the support frame 40 and the middle frame 10 is adjustable, the movable frame 50 is further in sliding fit with the support frame 40 in the inner and outer directions, after the position adjustment of the support frame 40 is completed, the relative position between the movable frame 50 and the support frame 40 is further adjusted, and the movable frame 50 is used for bearing the outer machine part 200, so that the position of the movable frame 50 is more reasonable, and the phenomenon that the outer machine part 200 is scratched or interfered with a wall body in the mounting process is avoided.

Further, the support 40 defines a third guide slot extending in a longitudinal direction, and the moving frame 50 is inserted into the third guide slot to guide the moving frame 50 to slidably move in an inner and outer direction relative to the support 40. Thus, the stability and reliability of the position adjustment of the movable frame 50 with respect to the support frame 40 can be improved.

It should be noted that, in the present application, sliding structures such as balls may be disposed between the first guide groove 112 and the first guide rail 22, between the second guide groove 124 and the second guide rail 32, between the third guide groove and the third guide rail, and between the moving frame 50 and the supporting frame 60, so as to reduce sliding friction between the sliding matching structures, further reduce adjustment resistance, and adjust the mounting bracket 100, so that the assembly of the air conditioner assembly 1000 is simpler and more convenient, and effectively reduces the assembly difficulty.

As shown in fig. 1 and 2, further, the moving frame 50 has a plurality of third locking holes 51 spaced apart in a longitudinal direction, and the supporting frame 40 has third positioning holes 41, and the third positioning holes 41 are aligned with any of the third locking holes 51 and locked by the third locking members.

Specifically, the third locking member may be configured as a latch, a spring pin, or the like, and after the moving frame 50 moves longitudinally away from or toward the supporting frame 40 to a suitable position, the moving frame 50 may sequentially pass through the third locking hole 51 and the third positioning hole 41 through the third limiting member, so as to limit the moving frame 50 to a suitable position, improve the convenience of position adjustment of the moving frame 50, and make the moving frame 50 and the supporting frame 40 after being adjusted to a suitable position maintain higher stability and reliability in a relative position.

Further, the support frames 40 are two and are respectively located at two lateral sides of the outer mounting member 12, and each support member is matched with the movable frame 50. Thus, the motion stability of the movable frame 50 can be further improved, and the movable frame 50 is prevented from being biased.

As shown in fig. 1 and 2, the mounting bracket 100 further includes: the rotating frame 60, the rotating frame 60 is suitable for being arranged outdoors and is in rotating fit with the moving frame 50.

Specifically, the moving frame 50 includes a first rod portion engaged with the supporting frame 40, and a second rod portion located below the first rod portion and capable of pushing against the wall, and the rotating frame 60 is pivotally engaged with an outer end of the first rod portion and adapted to rotate to a position pushing against the second rod portion.

The second rod portion and the outer stopper 30 are both stopped on the outer wall body, so that the fixing stability and reliability of the mounting bracket 100 on the wall body can be improved.

Meanwhile, the rotating frame 60 may define a rectangular frame, in the horizontal position, two ends of the rotating frame 60 are approximately level with the extending direction of the windowsill so as to facilitate the removal of the outer machine portion 200, in the vertical position, the outer end of the rotating frame 60 is located below, and the inner end of the rotating frame 60 is located above so that the outer machine portion 200 disposed on the rotating frame 60 is turned over to the lower side of the windowsill to avoid shielding the windowsill.

It should be noted that, as defined herein, horizontal placement and vertical placement are to be understood as relative concepts rather than absolute concepts, horizontal placement should be understood as being parallel or substantially parallel to a horizontal plane, i.e. having a small inclination angle with respect to the horizontal plane, so that the connection portion 400 may be fitted to the intermediate frame 10, while the outer machine portion 200 may smoothly transition from the position of the connection portion 400 to the outside, the horizontal plane may be a plane parallel to the window sill, and vertical placement should be understood as being parallel or having a small inclination angle with respect to a vertical plane, so that the outer machine portion 200 after completion of installation is fitted to the wall, improving stability, and the vertical plane may be a plane parallel to the wall.

It will be appreciated that a damping assembly may be provided between the second lever portion and the turret 60, the damping assembly being connected to the turret 60 and the second lever portion, respectively, the damping assembly being configured to provide a damping force to reduce the rotational speed of the turret 60 as the turret 60 is rotated toward the upright position.

Specifically, the damping assembly may be configured as an air brace and a hydraulic brace, and one end is fixed on the rotating frame 60, and the other end is fixed on the second rod, in the horizontal position, an included angle between the rotating frame 60 and the second rod is preferably 90 °, in the vertical position, a rectangular frame defined by the rotating frame 60 is attached to the second rod, and in the process of switching the rotating frame 60 from the horizontal position to the vertical position, or from the vertical position to the horizontal position, the rotating frame 60 rotates relative to the middle frame 10, and the damping assembly may provide a buffering force to reduce the rotation speed of the rotating frame 60, thereby buffering the rotating frame 60 and the outer machine 200, preventing the outer machine 200 from being damaged due to excessive impact, and reducing noise in the installation process.

Illustratively, the damping assembly is configured as an air pressure stay rod, the cylinder body is hinged and fixed on the rotating frame 60, the free end of the stay rod is hinged and fixed on the second rod part, so that damping buffering in the process of switching between the horizontal position and the vertical position can be realized through sliding of the stay rod in the cylinder body, meanwhile, the air pressure stay rod with proper supporting force can be selected or the supporting force of the air pressure stay rod can be adjusted, the supporting force can be matched with the weight of the outer machine part 200, the stability of the rotating frame 60 in the horizontal position is improved, deformation of the rotating frame 60 in the horizontal position after bearing the gravity of the outer machine part 200 in the assembly process is avoided, the outer machine part 200 is caused to fall off, the assembly reliability is further improved, and the potential safety hazard is effectively reduced.

Of course, the damping assembly of embodiments of the present application is not limited thereto, and in other embodiments, the damping assembly includes: the sliding piece is arranged on the fixed seat in a sliding way; the elastic component is located between fixing base and the slider, and the one end and the slider rotation of gangbar link to each other, and the fixing base is established in one of rotating turret 60 and second pole portion, and the gangbar links to each other with the rotation of another in rotating turret 60 and the second pole portion, and when rotating turret 60 rotated towards vertical position, the elastic component was compressed in order to provide the resistance to realize the buffering to rotating turret 60 through the energy storage and the energy storage release of elastic component.

The inner stopper portion 21 of the inner stopper 2020, the outer stopper portion 31 of the outer stopper 3030, the second lever portion, and the like for stopping on a side of a member on the inner wall or the outer wall facing the wall may be provided with a flexible structure such as: rubber pads, flexible pads and the like are arranged to avoid scratching the inner wall body or the outer wall body, and can buffer working vibration of the inner machine part 300 and the outer machine part 200, so that the use experience of the air conditioner assembly 1000 is improved.

It should be noted that, the supporting frame 40, the moving frame 50 and the rotating frame 60 according to the embodiment of the present application are all configured as a frame structure, and may be connected end to end through a plurality of beams or through a plurality of angle steel to define a substantially rectangular frame structure, and the rotating frame 60 may be provided with a fixing hole, and the outer machine portion 200 may be fixed on the fixing hole through a fastener, so that the outer machine portion 200 that rotates synchronously with the rotating frame 60 is fixed on the rotating frame 60 more stably and reliably.

As shown in fig. 5, an air conditioner assembly 1000 according to an embodiment of the second aspect of the present application includes: the air conditioner and the mounting bracket 100 for the air conditioner in the above-described embodiments, the mounting bracket 100 is used to mount the air conditioner to a window.

Thus, by providing the heat insulating member 13, the heat insulating member 13 includes at least the first partition 131 between the inner and outer mounting members 11 and 12 and the second partition wrapping the inner and outer mounting members 11 and 12, and the inner and outer mounting members 11 and 12 are spaced apart by the first and second partitions to avoid heat transfer therebetween, so that the inner and outer units 300 and 200 do not interfere with each other, and the use effect of the air conditioner can be improved.

Specifically, the intermediate frame 10 includes the heat insulating member 13, the heat insulating member 13 may be configured as a bridge cut-off structure, and the heat insulating member 13 extends in the length direction of the window sill, may space the connection portion 400 between the inner machine portion 300 and the outer machine portion 200 from the window sill, block and reduce heat transfer between the connection portion 400 and the window sill to improve working stability of the window air conditioner, and by providing the heat insulating member 13, an upper side surface of the heat insulating member 13 may be configured as a plane, also facilitate sealing of the window, effectively space the indoor space from the outdoor space, may also improve a temperature adjustment effect of the window air conditioner on the indoor space, and may also further improve a temperature adjustment effect of the air conditioner by blocking the heat transfer between the inner mounting member 11 and the outer mounting member 12 by the heat insulating member 13.

Specifically, with the mounting bracket 100, the inner mounting member 11, the outer mounting member 12 and the heat insulating member 13 are fixedly connected through the fasteners while the heat insulating effect is achieved through the heat insulating member 13, namely, the inner mounting member 11 and the heat insulating member 13 jointly pull the outer mounting member 12 and the components (including the outer machine part 200) indirectly or directly arranged on the outer mounting member 12, so that the outer machine part 200 can be better fixed, the fixing stability and the reliability of the outer machine part 200 can be improved, and meanwhile, even if the heat insulating member 13 breaks, the inner mounting member 11 positioned on the indoor side still can pull the outer mounting member 12, so that the outer machine part 200 can not fall off, and the safety and the reliability can be improved.

According to the air conditioner assembly 1000 of the embodiment of the application, the mounting bracket 100 is adopted, so that the mounting convenience of the air conditioner assembly 1000 on a window is improved, the mounting difficulty is reduced, the potential safety hazard is eliminated, meanwhile, the heat transfer between the inner mounting piece 11 and the outer mounting piece 12 is less, the temperature adjusting effect of the air conditioner assembly 1000 can be improved, the temperature adjusting efficiency is improved, and the energy consumption is improved.

As shown in fig. 5, the air conditioner is a window type air conditioner and includes an outer unit 200, an inner unit 300 and a connection unit 400, wherein the inner unit 300 is adapted to be installed indoors, the outer unit 200 is adapted to be installed outdoors, the connection unit 400 is connected to the upper portion between the outer unit 200 and the inner unit 300 and is arranged above the middle frame 10, and the outer unit 200 can be installed through the installation bracket 100, so that the assembly difficulty is effectively reduced, and the potential safety hazard is eliminated.

It should be noted that, a locking structure may be disposed between the outer machine portion 200 and the connection portion 400, during the installation process of the outer machine portion 200, the outer machine portion 200 and the connection portion 400 are fixed by the locking structure, and after the excavator portion is pushed to move to a horizontal position, the locking of the locking structure is released, so that the outer machine portion 200 and the rotating frame 60 may be synchronously turned down to abut against the outer wall.

In the description of the present utility model, 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 utility model 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 utility model.

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 utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the present utility model, 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; the device can be mechanically connected, electrically connected and communicated; 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 utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present utility model, 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 utility model. 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 utility model 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 utility model, the scope of which is defined by the claims and their equivalents.

Claims (27)

1. A mounting bracket for an air conditioner, comprising:

the middle frame, the middle frame is suitable for to be established on the windowsill, just the middle frame includes interior installed part, outer installed part and thermal-insulated piece, interior installed part is suitable for the installation and is located the part of windowsill inboard at least partially, and/or outer installed part is suitable for the installation and is located the part of windowsill outside at least partially, wherein, thermal-insulated piece include locate interior installed part with first partition portion between the installed part of outer, interior installed part with the installed part of outer passes through fastener fixed connection.

2. The mounting bracket for an air conditioner according to claim 1, wherein the inner mounting member has a first connecting portion, the outer mounting member has a second connecting portion provided corresponding to the first connecting portion, the first dividing portion is interposed between the second connecting portion and the first connecting portion, and the fastener sequentially penetrates the first connecting portion, the first dividing portion, and the second connecting portion.

3. The mounting bracket for an air conditioner according to claim 2, wherein the first connection portions are provided in plurality and at intervals, and the second connection portions are provided in one-to-one correspondence with the first connection portions.

4. A mounting bracket for an air conditioner according to claim 3, wherein the outer mounting member includes two first portions extending in a longitudinal direction and disposed at intervals in a lateral direction, the outer mounting member further includes a second portion extending in a lateral direction and connecting longitudinal outer ends of the two first portions, the two first portions are disposed on both lateral sides of the inner mounting member, the second portion is disposed on both lateral sides of the inner mounting member, both lateral sides of a longitudinal inner end of the inner mounting member are provided with the first connecting portions, respectively, and both lateral ends of a longitudinal outer end of the inner mounting member are also provided with the first connecting portions, respectively.

5. A mounting bracket for an air conditioner according to claim 3, wherein each of the first connection portions is perforated with a plurality of the fastening members.

6. The mounting bracket for an air conditioner of claim 1, wherein the heat shield further comprises a second heat shield that is externally wrapped around the inner and outer mounts.

7. The mounting bracket for an air conditioner of claim 1, wherein the heat insulating member is a single piece, and the inner and outer mounting members are respectively assembled to the heat insulating member.

8. The mounting bracket for an air conditioner according to claim 7, wherein an inner chamber open toward an inner side and an outer chamber open toward an outer side are formed on the heat insulating member, the inner chamber being isolated from the outer chamber by the first partition, the inner mounting member being fitted to the inner chamber, the outer mounting member being fitted to the outer chamber.

9. The mounting bracket for an air conditioner according to claim 8, wherein the fastener includes a first screw penetrating the inner mounting member from inside to outside and screwed to the outer mounting member, and/or a second screw penetrating the outer mounting member from outside to inside from outside and screwed to the inner mounting member.

10. The mounting bracket for an air conditioner of claim 1, wherein the inner and outer mounting members are sheet metal members.

11. The mounting bracket for an air conditioner of claim 1, further comprising:

and the inner stop piece is in sliding fit with the inner mounting piece along the inner and outer directions, and is provided with an inner stop part which is suitable for stopping on an inner wall to limit the mounting bracket to move to the outdoor side when the inner stop piece moves to the outer limit position.

12. The mounting bracket for an air conditioner of claim 11, wherein the inner mount defines a first guide slot extending in a longitudinal direction, the inner stop having a first guide rail extending in the longitudinal direction, the first guide rail being inserted into the first guide slot to guide the inner stop to be slidable in an inner and outer direction relative to the inner mount.

13. The mounting bracket for an air conditioner of claim 12, wherein the first guide groove has a first elongated hole extending in a longitudinal direction on a groove wall thereof, and the first guide rail has a first stopper thereon, and the first stopper slides along the first elongated hole.

14. The mounting bracket for an air conditioner of claim 12, wherein the first guide grooves are plural and are disposed at intervals in a lateral direction, and each of the first guide grooves is fitted with the first guide rail.

15. The mounting bracket for an air conditioner of claim 11, wherein the inner stopper has a plurality of first locking holes provided at intervals in a longitudinal direction, and the inner mounting member has first positioning holes formed thereon, the first positioning holes being alignable with any of the first locking holes and being locked by the first locking members.

16. The mounting bracket for an air conditioner of claim 1, further comprising:

and the outer stop piece is in sliding fit with the outer mounting piece along the inner and outer directions, and is provided with an outer stop part so as to be suitable for stopping the outer wall to limit the mounting bracket to move to the indoor side when the outer stop piece moves to the inner limit position.

17. The mounting bracket for an air conditioner of claim 16, wherein the outer mount defines a second guide slot extending in a longitudinal direction, the outer stop having a second guide rail extending in the longitudinal direction, the second guide rail being inserted into the second guide slot to guide the outer stop to be slidable in an inner and outer direction relative to the outer mount.

18. The mounting bracket for an air conditioner of claim 17, wherein the second guide groove has a second elongated hole extending in a longitudinal direction on a groove wall thereof, and the second guide rail has a second stopper thereon, and the second stopper slides along the second elongated hole.

19. The mounting bracket for an air conditioner of claim 17, wherein the second guide grooves are plural and are arranged at intervals in a lateral direction, and each of the second guide grooves is fitted with the second guide rail.

20. The mounting bracket for an air conditioner of claim 16, wherein the outer stopper has a plurality of second locking holes provided at intervals in a longitudinal direction, and the outer mounting member has second positioning holes provided thereon, the second positioning holes being alignable with any of the second locking holes and locked by the second locking holes.

21. The mounting bracket for an air conditioner of claim 1, further comprising:

the support frame is fixedly connected with the outer mounting piece;

the movable frame is suitable for supporting the outer wall and is in sliding fit with the support frame along the inner and outer directions.

22. The mounting bracket for an air conditioner of claim 21, wherein the support frame defines a third guide slot extending in a longitudinal direction, the movable frame being inserted into the third guide slot to guide the movable frame to be slidable in an inward and outward direction with respect to the support frame.

23. The mounting bracket for an air conditioner of claim 21, wherein the moving frame has a plurality of third locking holes provided at intervals in a longitudinal direction, and the supporting frame has third positioning holes formed thereon, the third positioning holes being alignable with any of the third locking holes and being locked by the third locking pieces.

24. The mounting bracket for an air conditioner of claim 21, wherein the support frames are two and are respectively located at both lateral sides of the outer mounting member, and each support frame is fitted with the moving frame.

25. The mounting bracket for an air conditioner of claim 21, further comprising:

the rotating frame is suitable for being arranged outdoors and is in rotating fit with the movable frame.

26. An air conditioner assembly, comprising: an air conditioner and a mounting bracket for an air conditioner according to any one of claims 1 to 25 for mounting the air conditioner to a window.

27. The air conditioner assembly of claim 26, wherein the air conditioner is a window air conditioner and includes an outer unit portion, an inner unit portion and a connection portion, the inner unit portion is adapted to be disposed indoors, the outer unit portion is adapted to be disposed outdoors, and the connection portion is connected at an upper portion between the outer unit portion and the inner unit portion and is disposed above the intermediate frame.

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