Air conditioner outdoor unit installation structure with heat insulation and waterproof function
By combining a built-in reinforcing plate, an external reinforcing frame, and a rainproof component, the problem of poor stability of the air conditioner outdoor unit on the block wall is solved, improving installation stability and safety, enhancing cooling efficiency, and extending the service life of the equipment and the wall.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- TIANJIN CHENCHUANG ENVIRONMENT ENG SCI & TECH
- Filing Date
- 2025-06-19
- Publication Date
- 2026-06-09
AI Technical Summary
Traditional air conditioner outdoor unit installation methods have poor stability on masonry walls, which can easily lead to wall damage. In addition, they can affect cooling efficiency in high-temperature environments and pose safety hazards.
It adopts a combination structure of built-in reinforcing plate, external reinforcing frame, heat insulation plate, rainproof component and reinforcing component, and is fixed by double-headed bolts and fastening nuts. Combined with shock-absorbing pads and waterproof strips, it improves installation stability and heat insulation performance.
It improves the installation stability and safety of the outdoor air conditioning unit, reduces the risk of wall damage, enhances cooling efficiency, and extends the service life of the equipment and the wall.
Smart Images

Figure CN224340247U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of air conditioner installation, and in particular to an air conditioner outdoor unit installation structure with heat insulation and waterproof functions. Background Technology
[0002] In the air conditioning installation field, the technology related to air conditioner outdoor units with heat insulation and waterproof functions and their installation structures has attracted much attention. As people's requirements for air conditioning user experience and equipment protection continue to increase, some shortcomings of traditional air conditioner outdoor unit installation methods have gradually become apparent. For example, in high-temperature environments, outdoor units exposed to the elements for extended periods are prone to overheating due to direct sunlight, affecting cooling efficiency and even shortening the equipment's lifespan.
[0003] In existing technologies, traditional installation methods are relatively simple and direct. Typically, after selecting a suitable location on the block wall, holes are drilled using tools such as an electric drill, and expansion bolts are driven into the holes to secure the air conditioner outdoor unit bracket. However, in actual use, the strength of the block wall itself is relatively low, and its structural stability is poor compared to solid brick or concrete walls. During the installation of the air conditioner outdoor unit, the unit's weight, combined with the continuous vibration generated during operation, puts significant pressure on the block wall. Over time, the vibration from the outdoor unit will continuously impact the wall, causing… The already fragile block wall structure gradually deteriorates. At the same time, gravity causes the expansion bolts to continuously compress the blocks around the holes, causing the holes to gradually enlarge. Once the holes enlarge to a certain extent, the brackets of the air conditioner outdoor unit will loosen, which will greatly affect the stability of the air conditioner outdoor unit. In fact, the loose air conditioner outdoor unit may even fall off the wall in severe weather such as strong winds and heavy rain, causing serious injury and damage to pedestrians, vehicles and the building itself below. Therefore, it is necessary to improve the installation structure of the air conditioner outdoor unit with heat insulation and waterproof functions to solve the above problems. Utility Model Content
[0004] To overcome the problem that the relatively low strength of the block wall means that the force generated by the air conditioner outdoor unit can damage the block wall during long-term use, thus affecting the stability and safety of the air conditioner outdoor unit.
[0005] The technical solution of this utility model is as follows: an air conditioner outdoor unit installation structure with heat insulation and waterproof function, including an outer wall body, an outer wall insulation layer disposed on the outer wall body, an internal reinforcing plate on the outer wall insulation layer, an external reinforcing frame disposed on the outer wall body, an insulation plate disposed on the outer wall body, a double-ended bolt body disposed between the internal reinforcing plate and the insulation plate, a first fastening nut threaded to one end of the double-ended bolt body, a second fastening nut threaded to the end of the double-ended bolt body away from the first fastening nut, and a mounting bracket disposed on the front of the external reinforcing frame. The system includes a first fastening bolt threaded onto the external reinforcement frame, an air conditioner outer casing body mounted on the mounting bracket, a support leg fixedly connected to the bottom of the air conditioner outer casing body, a shock-absorbing pad body positioned between the support leg and the mounting bracket, a rainproof component positioned between the outer wall body and the mounting bracket, and a reinforcement component positioned between the outer wall body and the air conditioner outer casing body. The rainproof component provides rain protection for the outer wall body and the air conditioner outer casing body, the reinforcement component further reinforces the installation of the air conditioner outer casing body, and the shock-absorbing pad body buffers the force generated by the air conditioner outer casing body.
[0006] Preferably, a heat insulation sealant is provided between the heat insulation board and the exterior wall body.
[0007] As a preferred option, a waterproof strip is installed between the external reinforcement frame and the external wall body to protect the external wall body.
[0008] Preferably, the rainproof component includes a drainage hole opened on the air conditioner outer casing, a first mounting plate fixedly connected to the outer wall body, a support frame disposed on the front of the first mounting plate, a second fastening bolt threaded to the first mounting plate, and a rainproof cover body fixedly connected to the support frame.
[0009] Preferably, a waterproof strip is provided between the first mounting plate and the outer wall body to protect the outer wall body.
[0010] Preferably, the reinforcement assembly includes a first fixed seat fixedly connected to the external reinforcement frame, a first rotating seat rotatably connected to the first fixed seat, a fixed rod fixedly connected to the first rotating seat, a guide rod fixedly connected to the inner side of the fixed rod, an adjustment knob rotatably connected to the fixed rod, a sliding rod threadedly connected to the adjustment knob, a second fixed seat fixedly connected to the air conditioner outer casing, a second rotating seat rotatably connected to the second fixed seat, a fixed ring fixedly connected to the air conditioner outer casing, a third fixed seat fixedly connected to the outer wall body, a worm gear rotatably connected to the third fixed seat, a knob fixedly connected to the worm gear, a worm wheel meshing with the worm gear, a collecting roller fixedly connected to the worm wheel, a traction rope disposed between the fixed ring and the collecting roller, and a sliding rod slidably connected to the guide rod. The collecting roller is rotatably connected to the third fixed seat, and the sliding rod is slidably driven to slide by rotating the adjustment knob.
[0011] Preferably, the fixing rod has a limiting groove at the relative position of the adjusting knob, and the adjusting knob is rotatably connected to the groove.
[0012] Preferably, the sliding rod has a matching groove at the relative position of the guide rod, and the sliding rod is slidably connected to the guide rod through the groove.
[0013] The beneficial effects of this utility model are:
[0014] 1. The combination of built-in reinforcing plates and external reinforcing frames provides support for the installation of the mounting bracket and the air conditioner outer casing. The reinforcement components further enhance the installation stability of the air conditioner outer casing, strengthen the overall lateral resistance of the air conditioner outer casing, reduce the risk of damage to the outer wall and displacement of the air conditioner outer casing caused by vibration and external forces, ensure the safe and stable operation of the equipment, and extend the service life of the equipment and the outer wall.
[0015] 2. The wall is protected by infilled insulation components to prevent the indoor temperature from rising with the high temperature, which would increase the energy consumption of air conditioning and other cooling equipment, improve the cooling or heating efficiency of the air conditioner, and protect the wall from the heat. In addition, rainproof components prevent rainwater from penetrating the exterior wall body and prevent rainwater from seeping into the gaps in the exterior wall body, further reducing the risk of rainwater erosion to the wall body and extending the service life of the exterior wall body. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of one embodiment of the air conditioner outdoor unit installation structure with heat insulation and waterproof function according to this utility model;
[0017] Figure 2 for Figure 1 A cross-sectional structural diagram of the main body of the exterior wall and the exterior wall insulation layer;
[0018] Figure 3 for Figure 1 A structural schematic diagram of the main body of the central air conditioning unit and its connected components;
[0019] Figure 4 This is a schematic diagram of the structure of the first mounting plate and its connected components of this utility model;
[0020] Figure 5 This is a schematic diagram of the structure of the reinforcement component of this utility model;
[0021] Figure 6 This is a structural schematic diagram of the third fixing base and its connected components of this utility model.
[0022] Explanation of reference numerals in the attached drawings: 1. Exterior wall body; 21. Internal reinforcing plate; 22. External reinforcing frame; 23. Insulation board; 24. Double-ended bolt body; 25. First fastening nut; 26. Second fastening nut; 27. Mounting bracket; 28. First fastening bolt; 29. Air conditioner outer casing body; 210. Drain hole; 211. First mounting plate; 212. Support frame; 213. Second fastening bolt; 214. Rain cover body; 215. Support leg; 216. Shock-absorbing pad body; 31. First fixed seat; 32. First rotating seat; 33. Fixed rod; 34. Guide rod; 35. Adjustment knob; 36. Sliding rod; 37. Second fixed seat; 38. Second rotating seat; 39. Fixed ring; 310. Third fixed seat; 311. Worm gear; 312. Knob; 313. Worm wheel; 314. Collection roller; 315. Traction rope; 4. External wall insulation layer. Detailed Implementation
[0023] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0024] Please see Figure 1 - Figure 6This utility model provides an embodiment of an air conditioner outdoor unit installation structure with heat insulation and waterproof functions, including an outer wall body 1, an outer wall heat insulation layer 4 disposed on the outer wall body 1, an internal reinforcing plate 21 disposed on the outer wall heat insulation layer 4, an external reinforcing frame 22 disposed on the outer wall body 1, a heat insulation plate 23 disposed on the outer wall body 1, a double-ended bolt body 24 disposed between the internal reinforcing plate 21 and the heat insulation plate 23, a first fastening nut 25 threaded to one end of the double-ended bolt body 24, a second fastening nut 26 threaded to the end of the double-ended bolt body 24 away from the first fastening nut 25, and an external reinforcing frame 22 disposed on the external reinforcing frame 23. The frame 22 includes a mounting bracket 27 on its front side, a first fastening bolt 28 threaded onto the external reinforcing frame 22, an air conditioner outer casing 29 mounted on the mounting bracket 27, a support leg 215 fixedly connected to the bottom of the air conditioner outer casing 29, a shock-absorbing pad 216 positioned between the support leg 215 and the mounting bracket 27, a rainproof component positioned between the outer wall body 1 and the mounting bracket 27, and a reinforcing component positioned between the outer wall body 1 and the air conditioner outer casing 29. The rainproof component provides rain protection for the outer wall body 1 and the air conditioner outer casing 29, while the reinforcing component further reinforces the installation of the air conditioner outer casing 29. The shock-absorbing pad body 216 buffers the force generated by the air conditioner outer casing body 29. During installation, depending on the installation position of the air conditioner outer casing body 29, first install the built-in reinforcing plate 21 on the inner side of the wall. After installing the external reinforcing frame 22 and the heat insulation plate 23 on the other side of the outer wall body 1, pass the double-ended bolt body 24 through the built-in reinforcing plate 21 and the external reinforcing frame 22, and connect them to both sides of the double-ended bolt body 24 by the first fastening nut 25 and the second fastening nut 26. This is used to install and fix the built-in reinforcing plate 21 and the external reinforcing frame 22. Then, align the through hole of the mounting bracket 27 with the threaded hole of the external reinforcing frame 22. After alignment, the first fastening bolt 28 is threaded through the through hole and connected to the external reinforcement frame 22 to complete the installation of the mounting bracket 27. After the rainproof component and the reinforcement component are installed, the air conditioner outer casing 29 is installed on the mounting bracket 27. Subsequently, the reinforcement component is adjusted to support the air conditioner outer casing 29. When the air conditioner outer casing 29 is working, the shock-absorbing pad body 216 buffers the force generated by the air conditioner outer casing 29. In rainy weather, the rainproof component outer wall body 1 and the air conditioner outer casing 29 are protected. The reinforcement component further improves the installation stability of the air conditioner outer casing 29.
[0025] Please see Figure 1 - Figure 4In this embodiment, a heat insulation sealant is provided between the heat insulation board 23 and the outer wall body 1. The heat insulation sealant works in conjunction with the heat insulation board 23 to reduce the heat generated by the air conditioner outdoor unit during operation and reduce its conduction to the wall, thus affecting the indoor stability and adjustment effect and the structural performance of the wall. A waterproof strip is provided between the external reinforcement frame 22 and the outer wall body 1 to protect the outer wall body 1. The waterproof strip prevents rainwater from entering through the gap between the external reinforcement frame 22 and the outer wall body 1 and affecting the structural strength of the outer wall body 1. The rainproof component includes a drainage hole 210 opened on the air conditioner outer casing 29, a first mounting plate 211 fixedly connected to the outer wall body 1, and a... The support frame 212 on the front of the first mounting plate 211, the second fastening bolt 213 threadedly connected to the first mounting plate 211, and the rain cover body 214 fixedly connected to the support frame 212, protect the top from rainwater through the rain cover body 214, and drain the rainwater accumulated on the mounting bracket 27 through the drainage hole 210, thereby protecting the working air conditioner outer casing body 29. A waterproof strip is provided between the first mounting plate 211 and the outer wall body 1 for protecting the outer wall body 1. By providing the waterproof strip, rainwater is prevented from entering through the gap between the first mounting plate 211 and the outer wall body 1, which would affect the structural strength of the outer wall body 1.
[0026] Please see Figure 1 - Figure 4In this embodiment, the reinforcement assembly includes a first fixed seat 31 fixedly connected to the external reinforcement frame 22, a first rotating seat 32 rotatably connected to the first fixed seat 31, a fixed rod 33 fixedly connected to the first rotating seat 32, a guide rod 34 fixedly connected to the inner side of the fixed rod 33, an adjustment knob 35 rotatably connected to the fixed rod 33, a sliding rod 36 threadedly connected to the adjustment knob 35, a second fixed seat 37 fixedly connected to the air conditioner outer casing body 29, a second rotating seat 38 rotatably connected to the second fixed seat 37, a fixed ring 39 fixedly connected to the air conditioner outer casing body 29, a third fixed seat 310 fixedly connected to the outer wall body 1, a worm gear 311 rotatably connected to the third fixed seat 310, a knob 312 fixedly connected to the worm gear 311, a worm wheel 313 meshing with the worm gear 311, a collecting roller 314 fixedly connected to the worm wheel 313, and a ring disposed between the fixed ring 39 and the collecting roller. The traction rope 315 and sliding rod 36 between 314 are slidably connected to the guide rod 34. The storage roller 314 is rotatably connected to the third fixed seat 310. The sliding rod 36 is driven to slide by rotating the adjustment knob 35. The reinforcement component further assists in the installation and fixation of the air conditioner outer casing 29. When dealing with different wind directions and wind forces, it strengthens the stability of the air conditioner outer casing 29 to prevent it from falling. The fixed rod 33 has a limiting groove at the relative position of the adjustment knob 35. The adjustment knob 35 is rotatably connected to the groove. The groove limits the rotation of the adjustment knob 35 to prevent the adjustment knob 35 from disengaging from the fixed rod 33 and affecting the sliding of the sliding rod 36. The sliding rod 36 has a matching groove at the relative position of the guide rod 34. The sliding rod 36 is slidably connected to the guide rod 34 through the groove. The groove guides the sliding of the sliding rod 36 to prevent the sliding rod 36 from tilting and affecting the support and fixation of the air conditioner outer casing 29.
[0027] During installation, based on the installation position of the air conditioner outer casing 29, first install the built-in reinforcing plate 21 on the inner side of the wall. Then, install the external reinforcing frame 22 and heat insulation plate 23 on the other side of the outer wall 1. Next, pass the double-ended bolt body 24 through the built-in reinforcing plate 21 and the external reinforcing frame 22, and thread it onto both sides of the double-ended bolt body 24 using the first fastening nut 25 and the second fastening nut 26. This secures the built-in reinforcing plate 21 and the external reinforcing frame 22. Then, align the through hole of the mounting bracket 27 with the threaded hole of the external reinforcing frame 22, and pass the first fastening bolt 28 through the through hole to the external... After threading the reinforcing frame 22 to complete the installation of the mounting bracket 27, install the first mounting plate 211 onto the outer wall body 1, align the through hole of the support frame 212 with the threaded hole of the first mounting plate 211, and thread the second fastening bolt 213 through the threaded hole to the first mounting plate 211. After installing and fixing the rain cover body 214 onto the support frame 212, fill the space between the first mounting plate 211 and the outer wall body 1, and between the external reinforcing frame 22 and the outer wall body 1 with waterproof adhesive strips. Then fill the space between the external reinforcing frame 22 and the outer wall body 1 with a heat insulation sealing gasket, and finally install the first fixing seat 31 onto the external reinforcing frame 22. After the second fixing seat 37 is installed and fixed on the air conditioner outer casing 29, the adjustment knob 35 is rotated. When the adjustment knob 35 is rotated, it drives the sliding rod 36 to slide on the guide rod 34, thereby adjusting the extension distance of the sliding rod 36. The two third fixing seats 310 are symmetrically installed on the outer wall body 1. The knob 312 connected to them is rotated to drive the worm gear 311 to rotate. When the worm gear 311 rotates, it drives the collecting roller 314 to rotate through the cooperation of the worm wheel 313. When the collecting roller 314 rotates, it drives the traction rope 315 to tighten, thereby pulling the fixing ring 39 to provide auxiliary fixation for the air conditioner outer casing 29. The air conditioner outer casing 29 is fixedly installed on the mounting bracket 27. When the air conditioner outer casing 29 is working, the shock-absorbing pad body 216 buffers the force generated by the air conditioner outer casing 29. In rainy weather, the rain cover body 214 protects the top of the air conditioner outer casing 29 from rain. The waterproof strip filled between the first mounting plate 211, the external reinforcement frame 22 and the outer wall body 1 prevents rainwater from entering and affecting the structural strength of the outer wall body 1. The reinforcement components further reinforce the installation and fixation of the air conditioner outer casing 29, thereby improving the installation stability of the air conditioner outer casing 29.
[0028] Through the above steps, the built-in reinforcing plate 21 and the external reinforcing frame 22 work together to provide support for the installation of the mounting bracket 27 and the air conditioner outer casing 29. The reinforcement components further improve the installation stability of the air conditioner outer casing 29, thereby solving the problem that the relatively low strength of the block wall will cause damage to the block wall due to the force generated by the air conditioner outdoor unit during long-term use, thus affecting the stability and safety of the air conditioner outdoor unit.
Claims
1. An air conditioner outdoor unit mounting structure having a heat-insulating waterproof function, comprising an outer wall body (1), characterized in that: It also includes an external wall insulation layer (4) installed on the external wall body (1), an internal reinforcing plate (21) on the external wall insulation layer (4), an external reinforcing frame (22) installed on the external wall body (1), an insulation plate (23) installed on the external wall body (1), a double-ended bolt body (24) installed between the internal reinforcing plate (21) and the insulation plate (23), a first fastening nut (25) threaded to one end of the double-ended bolt body (24), a second fastening nut (26) threaded to the end of the double-ended bolt body (24) away from the first fastening nut (25), a mounting bracket (27) installed on the front of the external reinforcing frame (22), and a first fastening nut threaded to the external reinforcing frame (22). The components include: bolt (28), air conditioner outer casing body (29) mounted on mounting bracket (27), support leg (215) fixedly connected to the bottom of air conditioner outer casing body (29), shock-absorbing pad body (216) between support leg (215) and mounting bracket (27), rainproof component mounted on outer wall body (1) and mounting bracket (27), and reinforcement component mounted between outer wall body (1) and air conditioner outer casing body (29). The rainproof component provides rain protection for outer wall body (1) and air conditioner outer casing body (29), the reinforcement component further reinforces the installation of air conditioner outer casing body (29), and the shock-absorbing pad body (216) buffers the force generated by air conditioner outer casing body (29).
2. The air conditioner outdoor unit mounting structure having a heat and water proofing function according to claim 1, characterized in that: A heat insulation sealant is provided between the heat insulation board (23) and the outer wall body (1).
3. The air conditioner outdoor unit mounting structure having a heat and water proofing function according to claim 1, characterized in that: A waterproof strip is provided between the external reinforcement frame (22) and the external wall body (1) to protect the external wall body (1).
4. The air conditioner outdoor unit mounting structure having a heat and water proofing function according to claim 1, characterized in that: The rainproof component includes a drain hole (210) opened on the air conditioner outer casing (29), a first mounting plate (211) fixedly connected to the outer wall body (1), a support frame (212) set on the front of the first mounting plate (211), a second fastening bolt (213) threadedly connected to the first mounting plate (211), and a rainproof cover body (214) fixedly connected to the support frame (212).
5. The air conditioner outdoor unit mounting structure having a heat and water proofing function according to claim 4, characterized in that: A waterproof strip is provided between the first mounting plate (211) and the outer wall body (1) to protect the outer wall body (1).
6. The air conditioner outdoor unit mounting structure having a heat and water proofing function according to claim 1, characterized in that: The reinforcement assembly includes a first fixed seat (31) fixedly connected to the external reinforcement frame (22), a first rotating seat (32) rotatably connected to the first fixed seat (31), a fixed rod (33) fixedly connected to the first rotating seat (32), a guide rod (34) fixedly connected to the inner side of the fixed rod (33), an adjustment knob (35) rotatably connected to the fixed rod (33), a sliding rod (36) threadedly connected to the adjustment knob (35), a second fixed seat (37) fixedly connected to the air conditioner outer casing body (29), a second rotating seat (38) rotatably connected to the second fixed seat (37), and a fixed seat on the air conditioner outer casing body (29). A fixed ring (39), a third fixed seat (310) fixedly connected to the outer wall body (1), a worm gear (311) rotatably connected to the third fixed seat (310), a knob (312) fixedly connected to the worm gear (311), a worm wheel (313) meshing with the worm gear (311), a collection roller (314) fixedly connected to the worm wheel (313), a traction rope (315) set between the fixed ring (39) and the collection roller (314), and a sliding rod (36) slidably connected to the guide rod (34). The collection roller (314) is rotatably connected to the third fixed seat (310). The sliding rod (36) is driven to slide by rotating the adjustment knob (35).
7. The air conditioner outdoor unit mounting structure having a heat-insulating waterproof function according to claim 6, characterized in that: The fixing rod (33) has a limiting groove at the relative position of the adjusting knob (35), and the adjusting knob (35) is rotatably connected to the groove.
8. The air conditioner outdoor unit mounting structure having a heat and water proofing function according to claim 6, wherein: The sliding rod (36) has a matching groove at the relative position of the guide rod (34), and the sliding rod (36) is slidably connected to the guide rod (34) through the groove.