Mounting bracket and air conditioner

By designing an auxiliary locking structure for connecting brackets and locking brackets, the problem of poor stability of air conditioner installation brackets is solved, enabling users to install and stably fix the outdoor unit of the air conditioner themselves, avoiding damage to the building structure.

CN224498639UActive Publication Date: 2026-07-14GD MIDEA AIR CONDITIONING EQUIP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GD MIDEA AIR CONDITIONING EQUIP CO LTD
Filing Date
2025-06-27
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The existing air conditioner mounting brackets have poor stability, resulting in unstable installation of the outdoor unit.

Method used

An installation bracket was designed, including a connecting bracket and a locking bracket. Through a one-way lock and a push rod in the auxiliary locking structure, the locking bracket is stably locked to the house, ensuring that the installation structure is not easy to detach.

Benefits of technology

This improves the installation stability of the outdoor air conditioning unit, allowing users to install it themselves without professional assistance and without damaging the building structure.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of mounting bracket and air conditioner, it is related to air conditioner technical field, mounting bracket is installed in house;Mounting bracket includes mounting structure, and mounting structure includes connecting bracket and locking bracket, and locking bracket is installed in connecting bracket, and locking bracket can be locked with house;Mounting structure further includes auxiliary locking structure, and auxiliary locking structure includes the one-way lock of being arranged in connecting bracket, and slidingly wearing the push rod in one-way lock, push rod can push locking bracket and lock with house, and one-way lock can lock push rod.The technical scheme provided by the utility model can improve the installation stability of mounting bracket and house, to ensure the installation stability of air conditioner outdoor unit.
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Description

Technical Field

[0001] This utility model relates to the field of air conditioner technology, and in particular to a mounting bracket and an air conditioner. Background Technology

[0002] In existing technologies, split-type air conditioners that facilitate individual installation by users employ flexible refrigerant pipes to connect the indoor heat exchanger of the indoor unit and the outdoor heat exchanger of the outdoor unit, and refrigerant is injected into the refrigerant circuit before the equipment leaves the factory. Thus, when users install the equipment themselves, they only need to fix the indoor and outdoor units separately, without needing to install refrigerant pipes or add refrigerant, thereby reducing installation difficulty and enabling individual installation.

[0003] Air conditioner outdoor units need to be installed on the exterior wall or window frame of a building using mounting brackets. However, existing mounting brackets often have some problems, such as poor installation stability. Utility Model Content

[0004] The main purpose of this utility model is to propose a mounting bracket and an air conditioner, which aims to improve the installation stability of the mounting bracket and the house, so as to ensure the stable installation of the outdoor unit of the air conditioner.

[0005] To achieve the above objectives, the mounting bracket proposed in this utility model includes:

[0006] The main support frame, located on the outside of the window, is used for installing the outdoor unit of the air conditioner; and

[0007] The mounting structure includes a connecting bracket and a locking bracket, wherein the locking bracket is mounted on the connecting bracket and is capable of being locked to the house;

[0008] The installation structure also includes an auxiliary locking structure, which includes a one-way lock disposed on the connecting bracket and a push rod that slides through the one-way lock. The push rod can push the locking bracket to lock with the house, and the one-way lock can lock the push rod.

[0009] In one embodiment, the one-way lock has a locking cavity inside, the push rod slides through the locking cavity, the locking cavity has an elastic element and a plurality of locking balls inside, one end of the elastic element is connected to the locking cavity, and the other end is connected to the plurality of locking balls, the plurality of locking balls surround the outer periphery of the push rod, and at least part of the inner diameter of the locking cavity is set to decrease in the direction away from the locking bracket;

[0010] The push rod slides away from the locking bracket, causing the locking balls to move, thereby reducing the distance between the multiple locking balls and locking the push rod.

[0011] In one embodiment, the locking cavity is further provided with an unlocking part on the side near the locking ball, and a portion of the unlocking part slides into the locking cavity;

[0012] The unlocking part can push the locking ball to move, thereby increasing the distance between the multiple locking balls and releasing the one-way lock.

[0013] In one embodiment, the auxiliary locking structure further includes an unlocking member, which is movably inserted through the push rod and located on the side of the one-way lock opposite to the locking bracket. The unlocking member can push the unlocking part to move, thereby releasing the one-way locking part from locking.

[0014] In one embodiment, the push rod includes a first segment, a second segment, and a third segment that are bent and connected in sequence. The first segment and the third segment extend in the same direction and are used to push the locking bracket to lock with the house. The unlocking member slides through the first segment and the third segment, and the one-way lock is sleeved on both the first segment and the third segment.

[0015] In one embodiment, the auxiliary locking structure further includes a pusher and a fixing member disposed on the pusher. One end of the push rod facing the locking bracket passes through the pusher and is fixedly connected to the fixing member. The push rod pushes the locking bracket to lock with the house through the pusher.

[0016] In one embodiment, the pusher has a groove, the fixing member is engaged in the groove, and the end of the push rod facing the locking bracket passes through the groove wall and is connected to the fixing member.

[0017] In one embodiment, the fastener is configured as a flexible element;

[0018] The flexible component is provided with a first insertion hole, and the end of the push rod facing the locking bracket is inserted into the first insertion hole; and / or, the groove wall of the slot is provided with a second insertion hole, and one side of the flexible component is provided with an insertion part, which is engaged with the second insertion hole.

[0019] In one embodiment, the outer side of the house is provided with a protruding edge, and the bottom side of the protruding edge is provided with a locking position. The connecting bracket is connected to the upper side of the protruding edge, the locking bracket is located on the bottom side of the protruding edge, and can slide relative to the connecting bracket in the vertical direction. The pushing rod is located below the locking bracket and can push the locking bracket to move upward relative to the connecting bracket, so that the locking bracket locks with the locking position.

[0020] In one embodiment, the mounting structure further includes a locking member and an anti-detachment handle disposed at one end of the locking member. The locking member passes through the connecting bracket and is connected to the locking bracket. One end of the anti-detachment handle is rotatably connected to the end of the locking member away from the locking bracket.

[0021] The anti-detachment handle swings, causing the locking member to deflect about the end connected to the anti-detachment handle as an axis, thereby adjusting the angle between the locking bracket and the locking position, so that the locking bracket locks the locking position.

[0022] In one embodiment, the mounting structure further includes a sliding bracket, which is slidably mounted on the connecting bracket in a vertical direction. The locking bracket is disposed on the sliding bracket and can slide relative to the sliding bracket in the protruding direction of the protruding edge to engage with the locking position. The auxiliary locking structure can push the sliding bracket to move upward so that the locking bracket locks the locking position.

[0023] In one embodiment, the locking bracket has a first hook on the side facing the protruding edge;

[0024] The locking position is configured as a water guide groove at the bottom of the convex edge, and the first hook engages with the water guide groove; or, the locking position is configured as a second hook at the bottom of the convex edge, and the first hook engages with the second hook.

[0025] In one embodiment, the mounting bracket further includes a bracket body, the bracket body including a first support frame and a second support frame. The first support frame is detachably mounted to the connecting bracket and extends downward. The second support frame includes a fixing part and a supporting part arranged at an angle. The fixing part is connected to the first support frame and extends downward. The supporting part is disposed between the fixing part and the exterior wall. The outdoor unit of the air conditioner is at least installed on the side of the fixing part away from the exterior wall to press the supporting part against the exterior wall; and / or,

[0026] The mounting bracket has at least two perforated holes, with a dividing rib between the two holes. One end of the safety rope is connected to the dividing rib, and the other end can be connected to the inner side of the wall or the indoor unit of an air conditioner; and / or,

[0027] A second adjusting member is provided on the lower side of the connecting bracket. The second adjusting member is threadedly connected to the connecting bracket, and its end abuts against the exterior wall. The second adjusting member can be rotated to adjust the angle between the connecting bracket and the exterior wall. This utility model also proposes an air conditioner, including an outdoor unit and the mounting bracket described above, the mounting bracket being used to install the outdoor unit outside the building.

[0028] This utility model also proposes an air conditioner, including an outdoor unit and a mounting bracket as described above, wherein the mounting bracket is used to install the outdoor unit outside the house.

[0029] In one embodiment, the air conditioner further includes an indoor unit;

[0030] The indoor unit of the air conditioner is connected to the outdoor unit of the air conditioner via a refrigerant pipe, which is pre-filled with refrigerant; and / or, the bottom of the indoor unit of the air conditioner is equipped with casters.

[0031] The technical solution of this utility model is to set up an installation structure, which includes a connecting bracket and a locking bracket. The locking bracket is installed on the connecting bracket and can be locked to the house. Moreover, the installation structure can be installed without damaging the exterior wall or window structure. In actual installation, the installation structure is simply installed outside the house, and then the outdoor unit of the air conditioner is installed on the installation structure. The installation is convenient and does not require professional installers, allowing users to install it themselves.

[0032] The auxiliary locking structure includes a one-way lock mounted on the connecting bracket and a push rod that slides through the one-way lock. The push rod can push the locking bracket to lock to the house. When the push rod moves towards the locking bracket, the one-way lock is in the open state and does not restrict the sliding of the push rod; when the push rod moves away from the locking bracket, the one-way lock automatically locks (is in the locked state), thereby blocking the movement of the push rod and ensuring that the locking bracket is always locked in the locking position, thereby improving the installation stability of the mounting bracket and the house, and thus ensuring the installation stability of the outdoor unit of the air conditioner. Attached Figure Description

[0033] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on the structures shown in these drawings without creative effort.

[0034] Figure 1 A schematic diagram of the installation structure of the outdoor unit of an air conditioner in one embodiment of the present utility model;

[0035] Figure 2 for Figure 1 A schematic diagram of the installation structure of the middle installation structure;

[0036] Figure 3 for Figure 1 Exploded view of the installation structure in the middle;

[0037] Figure 4 for Figure 1 A schematic diagram of the auxiliary locking structure;

[0038] Figure 5 for Figure 1 Internal schematic diagram of a unidirectional lock in the locked state;

[0039] Figure 6 for Figure 1 Internal schematic diagram of the unidirectional lock in the open state;

[0040] Figure 7 for Figure 1 A schematic diagram of the structure of the mounting bracket;

[0041] Figure 8 for Figure 7 A magnified view of a section at point A in the middle;

[0042] Figure 9 for Figure 1 A schematic diagram of the mounting structure of the bracket at one angle;

[0043] Figure 10 for Figure 1 Another angle of the mounting bracket installation structure is shown in the diagram.

[0044] Figure 11 for Figure 1 Enlarged view of a portion of the main structure of the central support frame;

[0045] Figure 12 A schematic diagram of the installation structure of another embodiment of the air conditioner provided by this utility model;

[0046] Figure 13 An exploded view of the mounting bracket in another embodiment of the air conditioner provided by this utility model;

[0047] Figure 14 for Figure 13 A schematic diagram of the installation structure at one angle;

[0048] Figure 15 for Figure 13 Another angle schematic diagram of the installation structure;

[0049] Figure 16 for Figure 13 A schematic diagram of the auxiliary locking structure;

[0050] Figure 17 for Figure 13 Exploded view of the middle thrust member and the fixing member;

[0051] Figure 18 for Figure 13 A schematic diagram of the mounting structure of the mounting bracket;

[0052] Figure 19 A schematic diagram of the mounting structure of the mounting bracket in another embodiment of the air conditioner provided by this utility model.

[0053] Explanation of icon numbers:

[0054] 1. Mounting bracket; 101. Hole; 102. Dividing rib;

[0055] 11. Bracket body; 111. Mounting hook; 112. Anti-detachment plate; 113. First fastener; 114. Third adjusting component; 115. First support frame; 116. Second support frame; 1161. Fixing part; 1162. Supporting part; 117. Adapter frame;

[0056] 12. Installation structure; 121. Locking component; 122. Anti-detachment handle;

[0057] 13. Connecting bracket; 131. Overlapping part; 132. Connecting part; 133. Limiting part; 1331. First guide groove; 134. Mounting hole; 135. Second adjusting component;

[0058] 14. Locking bracket; 141. First hook; 142. Second sliding member; 143. Second guide groove; 145. First adjusting member;

[0059] 15. Auxiliary locking structure; 151. One-way lock; 1511. Locking cavity; 1512. Elastic element; 1513. Locking ball; 1514. Unlocking part; 152. Push rod; 1521. First section; 1522. Second section; 1523. Third section; 153. Unlocking element; 154. Pushing element; 1541. Slot; 1542. Second insertion hole; 155. Fixing element; 1551. Flexible element; 1553. Insertion part;

[0060] 16. Sliding bracket; 161. First sliding component;

[0061] 2. Window; 21. Eaves; 22. Locking position; 221. Drain channel; 222. Second hook; 3. Air conditioner outdoor unit; 4. Exterior wall.

[0062] The realization of the purpose, functional features and advantages of this utility model will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation

[0063] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of the present utility model.

[0064] It should be noted that if the embodiments of this utility model involve directional indicators (such as up, down, left, right, front, back, etc.), the directional indicators are only used to explain the relative positional relationship and movement of the components in a specific posture. If the specific posture changes, the directional indicators will also change accordingly.

[0065] Furthermore, if the embodiments of this utility model involve descriptions such as "first" or "second," these descriptions are for descriptive purposes only and should not be construed as indicating or implying their relative importance or implicitly specifying the number of technical features indicated. Therefore, a feature defined with "first" or "second" may explicitly or implicitly include at least one of those features. Additionally, the use of "and / or" or "and / or" throughout the text includes three parallel solutions. For example, "A and / or B" includes solution A, solution B, or a solution where both A and B are satisfied simultaneously. Furthermore, the technical solutions of the various embodiments can be combined with each other, but this must be based on the ability of those skilled in the art to implement them. When the combination of technical solutions is contradictory or impossible to implement, it should be considered that such a combination of technical solutions does not exist and is not within the scope of protection claimed by this utility model.

[0066] This utility model proposes an installation bracket 1 for installing an outdoor air conditioner unit 3 outside a building. The exterior wall 4 of the building has an installation medium, and the installation bracket 1 can be installed on the installation medium without damaging the exterior wall.

[0067] The air conditioner also includes an indoor unit, and a flexible connection assembly connects the indoor unit and the outdoor unit 3. This air conditioner can be a split-type air conditioner that is easy for users to install themselves. It uses refrigerant pipes to connect the indoor heat exchanger of the indoor unit and the outdoor heat exchanger of the outdoor unit 3, and refrigerant is injected into the refrigerant circuit before the equipment leaves the factory. Thus, when users install the equipment themselves, they only need to fix the indoor unit and the outdoor unit 3 separately, without needing to install refrigerant pipes or add refrigerant, thereby reducing installation difficulty and enabling individual installation. However, this design is not limited to this. In other embodiments, the air conditioner of this invention can also be a common split-type air conditioner or an integrated air conditioner, such as a window air conditioner integrated unit, in which case the outdoor unit 3 refers to the part of the window air conditioner that extends to the outside.

[0068] Furthermore, this type of split-type air conditioner, which is convenient for users to install individually, allows the compressor to be placed inside the indoor unit, thereby reducing the weight of the outdoor unit 3 and facilitating its installation on the mounting bracket 1. Correspondingly, in order to reduce the noise generated by the compressor, a noise reduction structure needs to be installed on the compressor.

[0069] Please see Figures 1 to 19 In one embodiment of this utility model, the mounting bracket 1 includes:

[0070] The mounting structure 12 includes a connecting bracket 13 and a locking bracket 14. The locking bracket 14 is mounted on the connecting bracket 13 and can be locked to the house and locked at the locking position 22.

[0071] The installation structure 12 also includes an auxiliary locking structure 15, which includes a one-way lock 151 disposed on the connecting bracket 13 and a push rod 152 slidably passing through the one-way lock 151. The push rod 152 can push the locking bracket 14 to lock with the house, and the one-way lock 151 can lock the push rod 152.

[0072] Specifically, the exterior wall 4 of the building typically has a protruding edge 21. This protruding edge 21 can be a window sill at the bottom of the window 2, an eave, or a decorative protruding edge. The mounting structure 12 can be installed on the protruding edge 21, and is at least partially located on the outside of the building. The outdoor air conditioner unit 3 can be directly installed on the mounting structure 12, or it can be installed on the mounting structure 12 via other brackets, thus installing the outdoor air conditioner unit 3 outside the building. The connecting bracket 13 can be connected to the upper side of the protruding edge 21. The locking bracket 14 is installed on the connecting bracket 13, and the bottom of the protruding edge 21 usually has a locking position 22. The locking bracket 14 can be locked with the locking position 22, thereby fixing the mounting structure 12 to the upper and lower sides of the protruding edge 21 respectively, thus ensuring the installation stability of the mounting structure 12 and reducing the possibility of the mounting structure 12 accidentally detaching or moving outward under the gravity of the outdoor air conditioner unit 3. Moreover, in this solution, the installation of the mounting structure 12 can be completed without damaging the structure of the protruding edge 21, the exterior wall, or the window 2. Furthermore, the installation structure 12 is easy to install, requiring no professional installers and allowing users to install it themselves. In other embodiments, the connecting bracket 13 and locking bracket 14 can also be locked to the house through other installation methods, such as clamping the installation medium outside the house with the connecting bracket 13 and locking bracket 14 to achieve locking.

[0073] Optionally, the connecting bracket 13 includes an overlapping portion 131 and a connecting portion 132 arranged at an angle. The connecting portion 132 extends downward, and the overlapping portion 131 is approximately parallel to the upper side of the protruding edge 21, thus overlapping the upper side of the protruding edge 21. The weight of the outdoor air conditioner unit 3 and the mounting bracket 1 presses the upper side of the protruding edge 21 firmly without damaging the protruding edge 21. The locking bracket 14 is installed on the connecting portion 132 and locked with the locking position 22 on the bottom side of the protruding edge 21 to further connect with the protruding edge 21. On the other hand, the presence of the locking bracket 14 can also reduce the possibility of displacement of the overlapping portion 131 relative to the protruding edge 21. The locking bracket 14 can be directly slidably installed on the connecting portion 132 in the vertical direction, or it can be slidably installed on the connecting portion 132 via the sliding bracket 16.

[0074] When the protruding edge 21 is a window sill, this mounting structure 12, because it is installed on the window sill, allows the window 2 to be opened regardless of the window type. Especially for outward-opening windows 2, this mounting structure 12 can avoid the opening or closing path of the window 2, thus allowing the window 2 to open and close normally, thereby reducing the impact of the installation of the air conditioner outdoor unit 3 on the normal use of the window 2. In addition, the bracket body 11 generally extends downward, thereby reducing the installation height of the air conditioner outdoor unit 3, making the installation height of the air conditioner outdoor unit 3 lower than the height of the window. Preferably, the top of the air conditioner outdoor unit 3 is lower than the bottom of the window, so that the window 2 can be fully opened outward, thereby further reducing the impact of the installation of the air conditioner outdoor unit 3 on the window 2 and ensuring the ventilation and light transmission effect of the window 2.

[0075] Furthermore, the window sill sizes and types that are matched with different models of windows 2 are often different, and the size and type of the outer ridge of different house types may also be different. Therefore, in order to adapt to ridges 21 of different sizes, the locking bracket 14 can move up and down on the connecting bracket 13 to adapt to ridges 21 of different thicknesses.

[0076] It should be noted that the locking position 22 is generally not formed by damaging the surface of the protruding edge 21. It is often an inherent structure of the protruding edge 21 itself, such as some water-guiding ribs or water-guiding grooves 221, or some machined grooves or ribs. Therefore, this type of installation structure 12 will not damage the structure of the protruding edge 21. In other embodiments, if the upper surface of the protruding edge 21 has some decorative ribs or water-guiding ribs, some locking hooks can also be provided on the upper side of the connecting bracket 13. These locking hooks can hook onto the water-guiding ribs or decorative ribs, thereby further reducing the possibility of the installation structure 12 coming off.

[0077] In one embodiment, reference is made to Figure 4The locking bracket 14 is provided with a first hook 141 facing the protruding edge 21; the locking position 22 is configured as a water guide groove 221 at the bottom of the protruding edge 21, and the first hook 141 is engaged with the water guide groove 221. At this time, the protruding edge 21 is usually made of stone, and the water guide groove 221 at its bottom is usually a machined groove. The locking hook is inserted into the water guide groove 221, thereby engaging with the water guide groove 221 to achieve the engagement of the locking bracket 14 and the locking position 22, thereby preventing the installation structure 12 from moving outward and ensuring the stable clamping of the protruding edge 21 by the installation structure 12.

[0078] In another embodiment, reference is made to Figure 16 The locking bracket 14 is provided with a first hook 141 facing the protruding edge 21; the locking position 22 is configured as a second hook 222 located at the bottom of the protruding edge 21, and the first hook 141 engages with the second hook 222. At this time, the protruding edge 21 is usually made of aluminum alloy, and the aluminum alloy is folded at the lower edge of the protruding edge 21 to form a hook structure. The first hook 141 engages with the hook structure to realize the engagement between the locking bracket 14 and the locking position 22, thereby preventing the mounting structure 12 from moving outward and ensuring the stable clamping of the protruding edge 21 by the mounting structure 12.

[0079] In other embodiments, the locking bracket 14 is provided with a first hook 141 facing the protrusion 21; the locking position 22 is configured as a rib at the bottom of the protrusion 21, and the first hook 141 is engaged with the inner side of the rib.

[0080] The push rod 152 can apply an upward pushing force to the locking bracket 14, further causing the locking bracket 14 to clamp the protrusion 21. In order to reduce the accidental downward movement of the push rod 152, a one-way lock 151 is provided. The push rod 152 passes through the one-way lock 151. When the push rod 152 moves upward, the one-way lock 151 is in the open state and does not restrict the sliding of the push rod 152. When the push rod 152 moves downward, the one-way lock 151 will automatically lock (be in the locked state), thereby preventing the push rod 152 from moving downward, thus ensuring that the locking bracket 14 is always locked at the locking position 22.

[0081] Furthermore, refer to Figure 5 and Figure 6The one-way lock 151 has a locking cavity 1511 inside. The push rod 152 slides through the locking cavity 1511. The locking cavity 1511 has an elastic element 1512 and a plurality of locking balls 1513 inside. One end of the elastic element 1512 is connected to the locking cavity 1511, and the other end is connected to the plurality of locking balls 1513. The plurality of locking balls 1513 surround the outer periphery of the push rod 152, and the inner diameter of the locking cavity 1511 at least partially decreases in the direction away from the locking bracket 14. The push rod 152 slides in the direction away from the locking bracket 14, causing the locking balls 1513 to move, thereby reducing the distance between the plurality of locking balls 1513 to lock the push rod 152.

[0082] Specifically, one end of the elastic element 1512 near the locking bracket 14 is connected to the top of the locking cavity 1511, and the other end is connected to a plurality of locking balls 1513. The elastic element 1512 can be a tension spring. The push rod 152 passes through the locking cavity 1511, and the plurality of locking balls 1513 are arranged circumferentially along the push rod 152. The inner diameter of the locking cavity 1511 decreases at least in the section away from the locking bracket 14, that is, the locking cavity 1511 is tapered at least in the section away from the locking bracket 14. See Figure 5 When the push rod 152 slides away from the locking bracket 14, it causes the locking balls 1513 to move in the same direction. Under the pressure of the cavity wall of the locking cavity 1511, the locking balls 1513 move inward, thereby reducing the distance between them. This causes the locking balls 1513 to collectively press against the push rod 152, thus locking the push rod 152. (See...) Figure 6 When the push rod 152 slides towards the locking bracket 14, the locking balls 1513, driven by the push rod 152 and pulled by the elastic element 1512, move upward to the larger part of the inner diameter of the locking cavity 1511. This increases the distance between the multiple locking balls 1513, reducing the pressure of the locking balls 1513 on the push rod 152, and even creating a gap between them, allowing the one-way lock 151 to open and the push rod 152 to slide smoothly towards the locking bracket 14. To ensure the locking effect, there are at least two locking balls 1513, preferably more than two, such as three or four.

[0083] Furthermore, the locking cavity 1511 is also provided with an unlocking part 1514 on the side near the locking ball 1513. A portion of the unlocking part 1514 slides into the locking cavity 1511. The unlocking part 1514 can push the locking ball 1513 to move, thereby increasing the distance between the multiple locking balls 1513 and releasing the one-way lock 151. Specifically, when the connecting bracket 13 needs to be removed, the one-way lock 151 needs to be released; therefore, the unlocking part 1514 is provided, with one end of the unlocking part 1514 sliding into the locking cavity 1511. (See reference...) Figure 6When it is necessary to unlock, the unlocking part 1514 slides inward toward the inside of the locking cavity 1511, thereby causing the unlocking part 1514 to push multiple locking balls 1513 to a larger part of the inner diameter of the locking cavity 1511. This increases the distance between the multiple locking balls 1513, reducing the pressure of the locking balls 1513 on the push rod 152, or even setting them with a gap from the push rod 152, allowing the one-way lock 151 to open and the push rod 152 to slide freely. Therefore, preferably, the unlocking part 1514 is configured as a cylindrical structure and is sleeved on the push rod 152.

[0084] In other embodiments, the locking ball 1513 can also be configured as a magnetic ball. When it is necessary to release the one-way lock 151, the user can place a magnet at the end of the one-way lock 151 away from the locking ball 1513, thereby generating an upward attraction force on the magnetic ball to release the lock.

[0085] To facilitate the user in releasing the one-way lock 151, in one embodiment, please refer to... Figure 3 , Figure 4 and Figure 16 The auxiliary locking structure 15 also includes an unlocking member 153. The unlocking member 153 is movably inserted through the push rod 152 and located on the side of the one-way lock 151 opposite to the locking bracket 14. The unlocking member 153 can push the unlocking part 1514 to move, thereby releasing the one-way lock 151 from locking. Specifically, because the unlocking part 1514 is configured as a cylindrical structure and is small in size, it is often inconvenient in actual operation. Therefore, the unlocking member 153 is provided. The unlocking member 153 is a plate-shaped structure and is slidably sleeved on the push rod 152. The user can directly move the unlocking member 153 to press the unlocking part 1514 to move and release the lock.

[0086] Furthermore, the push rod 152 includes a first segment 1521, a second segment 1522, and a third segment 1523 connected in sequence by bending. The first segment 1521 and the third segment 1523 extend in the same direction and are used to push the locking bracket 14 to lock with the house. The unlocking element 153 slides through the first segment 1521 and the third segment 1523. Both the first segment 1521 and the third segment 1523 are fitted with one-way locks 151. Specifically, the first segment 1521 and the third segment 1523 are approximately parallel and can jointly push the locking bracket 14 to move, thereby improving the stability of the movement of the locking bracket 14. Therefore, both the first segment 1521 and the third segment 1523 are equipped with one-way locks 151 to lock the first segment 1521 and the third segment 1523. Thus, the unlocking member 153 simultaneously slides through the first segment 1521 and the third segment 1523, allowing it to unlock both one-way locks 151 at the same time, further facilitating the release of the one-way locks 151. Furthermore, the two ends of the second segment 1522 are connected to the first segment 1521 and the third segment 1523 respectively, so the push rod 152 is roughly "U"-shaped, which not only facilitates the processing of the push rod 152 but also reduces the possibility of the unlocking member 153 accidentally falling off.

[0087] Furthermore, because the locking bracket 14 in this solution is pushed upward by the push rod 152, the contact area between the push rod 152 and the locking bracket 14 is small. This not only results in low pushing stability of the auxiliary locking structure 15 and the locking bracket 14, but also makes the contact point between the locking bracket 14 and the push rod 152 prone to local deformation. In one embodiment, referring to... Figure 16 and Figure 17 The auxiliary locking structure 15 further includes a pusher 154 and a fixing member 155 disposed on the pusher 154. One end of the pusher 152 facing the locking bracket 14 passes through the pusher 154 and is fixedly connected to the fixing member 155. The pusher 152 pushes the locking bracket 14 to lock with the house through the pusher 154.

[0088] The pushing member 154 is typically elongated and has a slot 1541 on one side. The fixing member 155 is inserted into the slot 1541. One end of the pushing rod 152 facing the locking bracket 14 passes through the wall of the slot 1541 and connects to the fixing member 155. The pushing rod 152 is engaged or inserted into the fixing member 155, thereby fixing the pushing rod 152 and the pushing member 154 together. When the pushing rod 152 pushes the locking bracket 14 through the pushing member 154, its pushing force acts directly on the fixing member 155. Because the contact area between the two is large, local deformation is less likely to occur. Furthermore, because the contact area between the pushing member 154 and the locking bracket 14 is larger than the contact area between the locking bracket 14 and the pushing rod 152, the stability of the pushing rod 152 in pushing the locking bracket 14 is improved. The fastener 155 can be engaged with the slot 1541, and to reduce the possibility of the fastener 155 coming out of the slot 1541, the opening of the slot 1541 is located on the side of the pusher 154 facing the outer wall or on the side facing the connection portion 132. In other embodiments, the fastener 155 can also be integrally formed with the pusher 154.

[0089] Optionally, the fixing member 155 is configured as a flexible member 1551; the flexible member 1551 is provided with a first insertion hole, and the end of the push rod 152 facing the locking bracket 14 is inserted into the first insertion hole. For example, the flexible member 1551 can be an elastic buffer block, and the bottom of the elastic buffer block is provided with a first insertion hole. The end of the push rod 152 facing the locking bracket 14 is inserted into the slot 1541 and engaged in the first insertion hole. The push rod 152 can be interference-fitted with the first insertion hole, thereby facilitating both the engagement of the push rod 152 with the first insertion hole and the installation of the push rod 152.

[0090] To facilitate the engagement of the flexible component 1551 with the slot 1541, in one embodiment, the slot 1541 has a second insertion hole 1542 on its wall, and the flexible component 1551 has a protruding insertion portion 1553, which engages with the second insertion hole 1542. Specifically, the insertion portion 1553 has a locking protrusion at its end away from the flexible component, and the diameter of the locking protrusion is larger than the diameter of the insertion portion 1553. When the insertion portion 1553 is inserted into the second insertion hole 1542, the locking protrusion passes through the second insertion hole 1542 through its own elasticity and abuts against the side of the second insertion hole 1542 away from the fixing component 155, thereby engaging the insertion portion 1553 with the second insertion hole 1542.

[0091] Reference Figures 13 to 19In one embodiment of this utility model, the locking bracket 14 can be directly installed on the connecting part 132. Exemplarily, the mounting structure 12 further includes a locking member 121 and an anti-detachment handle 122 disposed at one end of the locking member 121. The locking member 121 passes through the connecting bracket 13 and is connected to the locking bracket 14. One end of the anti-detachment handle 122 is rotatably connected to the end of the locking member 121 away from the locking bracket 14. The anti-detachment handle 122 swings, causing the locking member 121 to deflect about the end connected to the anti-detachment handle 122 as an axis, thereby adjusting the angle between the locking bracket 14 and the locking position 22, so that the locking bracket 14 locks the locking position 22. Specifically, the locking member 121 passes through the connecting bracket 13 and is connected to the locking bracket 14. One end of the anti-detachment handle 122 is connected to the end of the locking member 121 away from the locking bracket 14, thereby installing the locking bracket 14 onto the connecting part 132. The anti-detachment handle 122 can swing relative to the locking member 121. When the first hook 141 engages with the water channel 221 or the second hook 222, pressing the anti-detachment handle 122 causes the end of the anti-detachment handle 122 connected to the locking member 121 to move away from the connecting part 132, thereby pulling the locking bracket 14 to deflect towards the side near the locking position 22. This adjusts the angle between the locking bracket 14 and the locking position 22, ensuring that the angle between the first hook 141 and the wall of the water channel 221 or the second hook 222 is less than or equal to 90°, so that the first hook 141 further engages the water channel 221 or the second hook 222.

[0092] However, at this time, the locking bracket 14 can only undergo small displacement relative to the connecting bracket 13 along the protruding direction of the protruding edge 21. The positions of the water guide groove 221 or the second hook 222 may vary significantly for different protruding edges 21. In this case, the user can move the entire mounting structure 12 along the protruding direction of the protruding edge 21 to facilitate engaging the first hook 141 into the water guide groove 221 or the second hook 222. To facilitate the vertical sliding of the locking bracket 14 on the connecting bracket 13, the connecting bracket 13 is provided with a first guide groove 1331 extending in the vertical direction. The locking member 121 passes through the first guide groove 1331 and connects to the locking bracket 14.

[0093] In summary, when the locking bracket 14 is directly installed on the connecting bracket 13, the installation steps of the mounting structure 12 are as follows:

[0094] First, the locking bracket 14 is pushed upward by the push rod 152, causing the first hook 141 to contact the lower side of the protruding edge 21. Then, the position of the installation structure 12 is adjusted along the protruding direction of the protruding edge 21, so that the first hook 141 engages with the water guide groove 221 or the second hook 222. Then, the locking bracket 14 is further pushed by the push rod 152, so that the first hook 141 and the water guide groove 221 are locked vertically. Then, the anti-detachment handle 122 is pressed, so that the angle between the first hook 141 and the groove wall of the water guide groove 221 or the second hook 222 is less than or equal to 90°, so that the first hook 141 engages with the water guide groove 221 or the second hook 222 along the protruding direction of the protruding edge 21, thereby completing the installation of the installation structure 12.

[0095] It is understood that the installation steps of the mounting structure 12 are not limited to this. As long as the mounting structure 12 can be installed on the protruding edge 21, it is within the protection scope of this solution.

[0096] Please see Figures 1 to 12 In another embodiment of this utility model, the mounting structure 12 further includes a sliding bracket 16, which is slidably mounted on the connecting portion 132 in the vertical direction. A locking bracket 14 is disposed on the sliding bracket 16 and can slide relative to the sliding bracket 16 along the protruding direction of the flange 21, and can also slide along the protruding direction of the flange 21 to engage with the locking position 22. The auxiliary locking structure 15 can push the sliding bracket 16 upwards to lock the locking position 22. Specifically, the locking bracket 14 is mounted on the connecting bracket 13 via the sliding bracket 16, thereby facilitating the installation of the locking bracket 14 and ensuring effective engagement between the locking bracket 14 and the locking position 22. Furthermore, the locking position 22 is often positioned differently for flanges 21 of different sizes or models. Therefore, to accommodate different locking positions 22, the locking bracket 14 can slide relative to the sliding bracket 16 along the protruding direction of the flange 21 to engage with the locking position 22. That is, the sliding bracket 16 assists the locking bracket 14 in adapting to the convex edge 21 of different thicknesses. The locking bracket 14 further adjusts its position along the window axis, thereby using the position of the locking position 22, thereby further improving the adaptability of the mounting structure 12 and improving the adaptability of the mounting bracket 1.

[0097] Furthermore, refer to Figure 7 and Figure 8The mounting structure 12 also includes a first sliding member 161 disposed on the sliding bracket 16. The connecting bracket 13 is provided with a first guide groove 1331 extending in the vertical direction. The first sliding member 161 is slidably inserted into the first guide groove 1331 to drive the sliding bracket 16 to slide up and down. Specifically, the first sliding member 161 is fixed to the sliding bracket 16, the first guide groove 1331 extends in the vertical direction, and the first sliding member 161 is slidably inserted into the first guide groove 1331 to drive the sliding bracket 16 to slide up and down relative to the connecting part 132, thereby slidably mounting the sliding bracket 16 onto the connecting part 132.

[0098] To ensure the stable movement of the locking bracket 14, in one embodiment, please refer to section 7 to... Figure 10 The mounting structure 12 also includes a second sliding member 142 disposed on the locking bracket 14. The sliding bracket 16 is provided with a second guide groove 143 extending along the protruding direction of the convex edge 21. The second sliding member 142 is slidably inserted into the second guide groove 143. Specifically, the second sliding member 142 is fixed to the locking bracket 14, the second guide groove 143 extends along the protruding direction of the convex edge 21, and the second sliding member 142 is slidably inserted into the second guide groove 143 to drive the locking bracket 14 to slide relative to the sliding bracket 16 along the protruding direction of the convex edge 21, thereby engaging the locking bracket 14 with the locking position 22.

[0099] In summary, when the locking bracket 14 is installed on the connecting part 132 via the sliding bracket 16, the installation steps of the mounting structure 12 are as follows:

[0100] First, the connecting bracket 13 is pushed upward by the push rod 152, so that the first hook 141 contacts the lower side of the protrusion 21, thereby achieving the pre-fixation of the connecting bracket 13; then the first adjusting member 145 is rotated, causing the locking bracket 14 to slide along the protruding direction of the protrusion 21 until the first hook 141 of the locking bracket 14 engages with the locking position 22, until it is engaged in place, so that the first hook 141 engages with the water guide groove 221 or the second hook 222 along the protruding direction of the protrusion 21; then the locking bracket 14 is further pushed by the push rod 152, so that the first hook 141 and the water guide groove 221 are locked in the vertical direction, thereby completing the installation of the installation structure 12.

[0101] It is understood that the installation steps of the mounting structure 12 are not limited to this. As long as the mounting structure 12 can be installed on the protruding edge 21, it is within the protection scope of this solution.

[0102] To facilitate the adjustment of the positional relationship between the locking bracket 14 and the locking position 22, in one embodiment, the mounting structure 12 further includes a first adjusting member 145. The first adjusting member 145 passes through the sliding bracket 16 and is threadedly connected to the locking bracket 14. Rotation of the first adjusting member 145 causes the locking bracket 14 to slide along the protruding direction of the flange 21, thereby engaging the locking bracket 14 with the locking position 22. Specifically, the first adjusting member 145 passes through the sliding bracket 16 and is rotatable relative to the sliding bracket 16. The first adjusting member 145 is threadedly connected to the locking bracket 14, causing the first adjusting member 145 to rotate, which in turn causes the locking bracket 14 to slide along the protruding direction of the flange 21, thereby adjusting the position of the locking bracket 14 relative to the locking position 22.

[0103] To further ensure the connection stability of the mounting bracket 1, in one embodiment, please refer to... Figure 2 The mounting bracket 1 has at least two perforated holes 101, with a dividing rib 102 between the two perforated holes 101. One end of the safety rope is connected to the dividing rib 102, and the other end can be connected to the inner side of the wall or the indoor unit of the air conditioner. Specifically, the perforated holes 101 can be set on the connecting structure 12. One end of the safety rope is connected to the dividing rib 102, and the other end is connected to a relatively fixed position such as the inner side of the wall or the indoor unit of the air conditioner, thereby applying a traction force to the mounting bracket 1. When the mounting structure 12 is accidentally loosened, it can hold the mounting bracket 1, thereby reducing the possibility of the outdoor unit of the air conditioner 3 falling accidentally. Furthermore, by setting two perforated holes 101 at intervals on the mounting bracket 1, a dividing rib 102 is formed between the two perforated holes 101, which facilitates the connection of the safety rope. In addition, the dividing rib 102 can be partially raised upwards, which further facilitates the connection of the safety rope.

[0104] Please see Figure 2 , Figure 9 and Figure 12In this embodiment of the present invention, a second adjusting member 135 is provided on the lower side of the connecting bracket 13. The second adjusting member 135 is threadedly connected to the connecting bracket 13, and its end abuts against the outer wall 4. The second adjusting member 135 rotates to adjust the angle between the connecting bracket 13 and the outer wall 4. Specifically, the second adjusting member 135 is threadedly connected to the connecting bracket 13, and its end abuts against the outer wall 4, thereby supporting the connecting bracket 13 between the connecting bracket 13 and the outer wall 4 and ensuring the stability of the connecting bracket 13. Furthermore, the rotation of the second adjusting member 135 allows the lower side of the connecting bracket 13 to move axially along the second adjusting member 135, thereby adjusting the distance between the connecting part 132 and the outer wall 4, and the deflection angle of the connecting part 132 relative to the outer wall 4. This allows for the adjustment of the position of the connecting part 132 when the wall surface is uneven, thereby ensuring the stable installation of the connecting bracket 13. In order to reduce the possibility of damage to the outer wall 4 when the second adjusting member 135 comes into contact with the outer wall 4, a buffer pad is provided at the end of the second adjusting member 135 facing the outer wall 4.

[0105] See Figure 7 , Figure 9 , Figure 10 , Figure 18 and Figure 19 In an embodiment of this utility model, the mounting bracket 1 further includes a bracket body 11, which is used for mounting the outdoor unit 3 of the air conditioner, and the bracket body 11 is mounted on the connecting bracket 13 to mount the outdoor unit 3 of the air conditioner outside the house.

[0106] Optionally, the bracket body 11 includes a first support frame 115 and a second support frame 116. The first support frame 115 is detachably installed on the connecting bracket 13 and extends downward. The second support frame 116 includes a fixing part 1161 and a supporting part 1162 arranged at an angle. The fixing part 1161 is connected to the first support frame 115 and extends downward. The supporting part 1162 is disposed between the fixing part 1161 and the outer wall 4. The outdoor unit 3 of the air conditioner is installed at least on the side of the fixing part 1161 away from the outer wall 4 to press the supporting part 1162 against the outer wall 4. Specifically, the support part 1162 and the fixing part 1161 are arranged at an angle, and one end of the support part 1162 is connected to the fixing part 1161, while the other end abuts against the outer wall 4. The outdoor unit 3 of the air conditioner is installed on the side of the fixing part 1161 away from the outer wall 4, so that the outdoor unit 3 of the air conditioner can press the support part 1162 against the outer wall 4, thereby ensuring the installation stability of the bracket body 11.

[0107] Optionally, the fixing part 1161 and the supporting part 1162 are arranged perpendicularly, so that the bracket body 11, the protruding edge 21, and the wall enclose a stable rectangular structure, which helps to ensure the stable placement of the air conditioner outdoor unit 3. An adjustment position can also be provided between the first support frame 115 and the fixing part 1161, so that the distance between the first support frame 115 and the fixing part 1161 is adjustable, thereby facilitating the adjustment of the installation height of the air conditioner outdoor unit 3. The fixing part 1161 and the supporting part 1162 can be integrally formed or welded together.

[0108] The bracket body 11 can be detachably installed on the mounting structure 12. Therefore, during actual installation, the outdoor unit 3 can be fixed to the bracket body 11 first, and then the bracket body 11 can be installed on the mounting structure 12. This overcomes the inconvenience of installing the outdoor unit 3 in some installation scenarios, such as when the outdoor unit 3 and the bracket body 11 are far from the window, not flush with the window, or the installation method of the outdoor unit 3 and the bracket body 11 is complex and cannot be fixed simply by placement or snap-fit. Alternatively, the bracket body 11 can be installed on the mounting structure 12 first, and then the outdoor unit 3 can be fixed to the bracket body 11, further improving the installation flexibility of the outdoor unit 3 and facilitating its fixation. In other embodiments, the bracket body 11 can also be integrally formed with the mounting structure 12, welded, or connected by screws or bolts.

[0109] When the bracket body 11 and the mounting structure 12 are detachably installed, in order to facilitate the installation of both, please refer to 2 in one embodiment. Figure 9 and Figure 11 The upper side of the connecting bracket 13 is provided with a mounting hole 134, and the upper end of the bracket body 11 is provided with a mounting hook 111, which is hooked onto the mounting hole 134. The upper end of the bracket body 11 is provided with an anti-detachment piece 112 extending towards the connecting bracket 13, and a first fastener 113 connects the anti-detachment piece 112 and the connecting bracket 13. Specifically, the mounting hook 111 is first hooked onto the mounting hole 134, thereby achieving pre-fixation between the bracket body 11 and the mounting structure 12. At the same time, the anti-detachment piece 112 is placed above the overlapping part 131, and the first fastener 113 passes through the anti-detachment piece 112 and is fastened to the overlapping part 131, thereby further fixing the bracket body 11 to the overlapping part 131. This facilitates the installation of the bracket body 11 and the mounting structure 12 and ensures the stability of their installation.

[0110] Since the overlapping portion 131 is located on the upper side of the protruding edge 21, the mounting hole 134 is located in the overlapping portion 131, further facilitating the installation of the bracket body 11. The first fastener 113 is generally a fastening screw, which is at least threaded into the overlapping portion 131. Therefore, to ensure the stability of the threaded connection, a nut structure is provided on the lower side of the overlapping portion 131, or the thickness of the overlapping portion 131 is increased, thereby extending the length of the threaded connection and reducing the possibility of stripping.

[0111] Furthermore, the bracket body 11 also includes an adapter frame 117, which is fixed to the outdoor unit 3 of the air conditioner and used to install the outdoor unit 3 of the air conditioner onto the fixing part 1161. Specifically, the adapter frame 117 can be snapped onto the bracket body 11 or fastened to the bracket body 11 by a third fastener. The adapter frame 117 is used to install the outdoor unit 3 of the air conditioner, thereby facilitating the installation of the outdoor unit 3 of the air conditioner onto the bracket body 11.

[0112] Optionally, a third adjusting member 114 is provided at the end of the support portion 1162 away from the fixing portion 1161. The third adjusting member 114 is threadedly connected to the support portion 1162, and one end of the third adjusting member 114 abuts against the outer wall 4. The third adjusting member 114 rotates to adjust the angle between the fixing portion 1161 and the outer wall 4. Specifically, the rotation of the third adjusting member 114 allows the support portion 1162 to move axially along the third adjusting member 114, thereby adjusting the distance between the support portion 1162 and the outer wall 4. This ensures that even when the wall surface is uneven, the fixing portion 1161 remains perpendicular to the horizontal direction, thus guaranteeing the stable installation of the outdoor unit 3. Furthermore, to reduce the possibility of damage to the outer wall 4 when the third adjusting member 114 abuts against the outer wall 4, a buffer pad is provided at the end of the third adjusting member 114 facing the outer wall 4.

[0113] This utility model also proposes an air conditioner, which includes an outdoor unit 3 and a mounting bracket 1. The specific structure of the mounting bracket 1 is as described in the above embodiments. Since this air conditioner adopts all the technical solutions of all the above embodiments, it has at least all the beneficial effects brought about by the technical solutions of the above embodiments, which will not be described in detail here. The mounting bracket 1 is used to install the outdoor unit 3 on the outside of a window.

[0114] The above description is merely an exemplary embodiment of the present utility model and does not limit the patent scope of the present utility model. Any equivalent structural transformations made based on the technical concept of the present utility model and the contents of the present utility model specification and drawings, or direct / indirect applications in other related technical fields, are included within the patent protection scope of the present utility model.

Claims

1. A mounting bracket for installation on a house, characterized in that, The mounting bracket comprises: The mounting structure comprises a connecting bracket and a locking bracket, the locking bracket is mounted on the connecting bracket, and the locking bracket can be locked with the house; The mounting structure further comprises an auxiliary locking structure, the auxiliary locking structure comprises a one-way lock arranged on the connecting bracket and a push rod slidingly arranged in the one-way lock, the push rod can push the locking bracket to be locked with the house, and the one-way lock can lock the push rod.

2. The mounting bracket of claim 1, wherein The one-way lock is internally provided with a locking cavity, the push rod slidingly passes through the locking cavity, the locking cavity is internally provided with an elastic member and a plurality of locking balls, one end of the elastic member is connected to the locking cavity, the other end of the elastic member is connected to the plurality of locking balls, the plurality of locking balls are arranged around the outer periphery of the push rod, and at least part of the inner diameter of the locking cavity is arranged to be smaller in the direction away from the locking bracket; The push rod slides away from the locking bracket, drives the locking balls to move, the distance between the plurality of locking balls is reduced, and the push rod is locked.

3. The mounting bracket of claim 2, wherein The side of the locking cavity close to the locking balls is further provided with an unlocking part, and part of the unlocking part slidingly extends into the locking cavity; The unlocking part can push the locking balls to move, the distance between the plurality of locking balls is expanded, and the locking of the one-way lock is released.

4. The mounting bracket of claim 3, wherein The auxiliary locking structure further comprises an unlocking member, the unlocking member movably passes through the push rod and is located on the side of the one-way lock away from the locking bracket, the unlocking member can push the unlocking part to move, and the locking of the one-way lock is released.

5. The mounting bracket of claim 4, wherein The push rod comprises a first segment, a second segment and a third segment connected in sequence, the first segment and the third segment extend in the same direction, and are used for pushing the locking bracket to be locked with the house, the unlocking member slidingly passes through the first segment and the third segment, and the first segment and the third segment are sleeved with the one-way lock.

6. The mounting bracket of claim 1, wherein The auxiliary locking structure further comprises a pushing member and a fixing member arranged on the pushing member, one end of the push rod passes through the pushing member and is fixedly connected to the fixing member, and the push rod pushes the locking bracket to be locked with the house through the pushing member.

7. The mounting bracket of claim 6, wherein The pushing member is formed with a clamping groove, the fixing member is clamped into the clamping groove, and one end of the push rod passes through the groove wall of the clamping groove and is connected to the fixing member.

8. The mounting bracket of claim 7, wherein The fixing member is configured as a flexible member; The flexible member is provided with a first insertion hole, one end of the push rod is clamped into the first insertion hole; and / or, the groove wall of the clamping groove is provided with a second insertion hole, one side of the flexible member is provided with an insertion part, and the insertion part is clamped into the second insertion hole.

9. The mounting bracket of claim 1, wherein The outer side of the house is provided with a protruding edge, the bottom side of the protruding edge is provided with a locking position, the connecting bracket is connected to the upper side of the protruding edge, the locking bracket is located on the bottom side of the protruding edge and can slide in the up-down direction relative to the connecting bracket, the push rod is located below the locking bracket and can push the locking bracket to move upward relative to the connecting bracket, so that the locking bracket is locked with the locking position.

10. The mounting bracket of claim 9, wherein The mounting structure further comprises a locking member and an anti-escape handle provided at one end of the locking member, the locking member is connected to the locking support through the connecting support, and one end of the anti-escape handle is rotationally connected to the end of the locking member away from the locking support; The anti-escape handle swings to make the locking member deflect with the end connected to the anti-escape handle as the pivot to adjust the included angle between the locking support and the locking position, so that the locking support locks the locking position.

11. The mounting bracket of claim 9, wherein The mounting structure further comprises a sliding support, the sliding support is slidingly installed on the connecting support in the up-down direction, the locking support is provided on the sliding support and can slide relative to the sliding support along the convex direction of the convex edge to be clamped with the locking position, and the auxiliary locking structure can push the sliding support to move upward to make the locking support lock the locking position.

12. The mounting bracket of claim 9, wherein The locking support is provided with a first clamping hook on the side facing the convex edge; The locking position is configured as a water guide groove provided at the bottom of the convex edge, and the first clamping hook is clamped in the water guide groove; or the locking position is configured as a second clamping hook provided at the bottom of the convex edge, and the first clamping hook is clamped in second clamping hook.

13. The mounting bracket of any one of claims 1 to 12, wherein, The mounting support further comprises a support body, the support body comprises a first support frame and a second support frame, the first support frame is detachably installed on the connecting support and extends downward, the second support frame comprises a fixed part and a support part arranged at an included angle, the fixed part is connected to the first support frame and extends downward, and the support part is provided between the fixed part and the outer wall, and the air conditioner outdoor unit is at least installed on the side of the fixed part away from the outer wall to press the support part against the outer wall; and / or, At least two hollow holes are provided on the mounting support, the two hollow holes have a separation rib therebetween, one end of a safety rope is connected to the separation rib, and the other end can be connected to the inner side of a wall or an air conditioner indoor unit; and / or, A second adjusting member is provided on the lower side of the connecting support, the second adjusting member is threadedly connected to the connecting support, and the end of the second adjusting member abuts against the outer wall; the second adjusting member is rotated to adjust the included angle between the connecting support and the outer wall.

14. An air conditioner characterized by comprising: The mounting support is used for mounting the air conditioner outdoor unit on the outside of a house.

15. The air conditioner of claim 14, wherein The air conditioner further comprises an air conditioner indoor unit; The air conditioner indoor unit is connected to the air conditioner outdoor unit through a refrigerant pipe, the refrigerant pipe is pre-filled with refrigerant, and / or the bottom of the air conditioner indoor unit is provided with a moving wheel. The air conditioner further comprises an air conditioner indoor unit;