An integrated air conditioner
By designing mounting brackets and support mechanisms, the problem of fixed installation locations for existing air conditioners has been solved, enabling flexible installation and fixation of the air conditioner unit, adapting to changes in data center rack layouts, and facilitating server expansion.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- PANSHI HAOHAI (BEIJING) INTELLIGENT TECH CO LTD
- Filing Date
- 2025-08-06
- Publication Date
- 2026-06-30
AI Technical Summary
Existing integrated air conditioners have fixed installation locations, making it difficult to flexibly adjust them to adapt to changes in data center rack layouts. For example, when servers are expanded or the rack orientation is adjusted, the installation location cannot be changed accordingly.
An air conditioning system including a mounting bracket and a support mechanism is designed. The mounting bracket consists of vertical beams and horizontal beams, and the suspension bracket can be snapped and fixed on the horizontal beams. The support mechanism includes a support base plate and a height adjustment component. Through the cooperation of the height adjustment component and the support base plate, the air conditioning unit can be flexibly installed and fixed.
It enables flexible installation and fixation of the air conditioner unit, adapts to different rack layouts, and facilitates the installation and fixation of air conditioners during server expansion.
Smart Images

Figure CN224434569U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of air conditioning technology, and in particular to integrated air conditioners. Background Technology
[0002] Most existing data centers and server rooms generally use traditional air conditioning. The bulky outdoor units and complex piping of traditional air conditioners are difficult to integrate with server equipment, resulting in significant idle space and hindering efficient resource utilization. Therefore, some data centers also use integrated air conditioning systems, such as the one described in patent publication number CN104913419A, entitled "A Rack-Mounted Integrated Air Conditioner and a System Including a Rack-Mounted Integrated Air Conditioner." This rack-mounted integrated air conditioner includes an air conditioning cabinet and an electrical control box for controlling the cabinet. The cabinet includes a heat dissipation module, an evaporation module, a compressor, and an air guide plate. The compressor and air guide plate are located between the heat dissipation module and the evaporation module. The evaporation module, compressor, and air guide plate are housed inside the cabinet. A cooling airflow direction adjustment mechanism is located at the front of the upper part of the cabinet. The air outlet is located at the top, and the air inlet at the rear of the upper part of the air conditioning unit is for downward air intake of hot air. The air outlet and the air inlet are connected to form a circulation loop. The rear of the heat dissipation module is provided with a condenser heat dissipation air inlet, and the side of the heat dissipation module is provided with a condenser heat dissipation air outlet. The condenser heat dissipation air inlet and the condenser heat dissipation air outlet are connected to form a circulation loop. The heat dissipation module includes a condenser and a condenser fan for hot air circulation. The evaporation module is fixed at the front of the air conditioning unit and includes an evaporator and an evaporator fan for cold air circulation.
[0003] However, the installation locations of existing integrated air conditioners are relatively fixed, and the design of the air conditioner cabinets is only compatible with specific rack specifications and placement methods. When data centers adjust the rack layout according to business needs, such as changing the original single-row racks to double rows or adjusting the rack orientation due to server expansion, integrated air conditioners cannot flexibly change their installation locations accordingly. Utility Model Content
[0004] The purpose of this invention is to provide an integrated air conditioner to address the aforementioned shortcomings of the prior art.
[0005] To achieve the above objectives, this utility model provides the following technical solution:
[0006] An integrated air conditioner includes an air conditioner body and a mounting bracket for mounting the air conditioner body. The mounting bracket includes a mounting base and a frame disposed on the mounting base. The frame includes a vertical beam and a horizontal beam. The vertical beam has a plurality of fixed mounting holes arranged sequentially along the height direction. The horizontal beam is fixedly installed in the fixed mounting holes. A hanging bracket is provided on the horizontal beam. The air conditioner body has mounting screw holes for fixing the hanging bracket. The hanging bracket can be snapped and fixed on the horizontal beam. A support mechanism is provided on the mounting base. The support mechanism includes a support base plate and a height adjustment component. The support base plate is slidably connected to the vertical beam. The height adjustment component is disposed on the mounting base. The support base plate is driven by the height adjustment component and can move up and down along the vertical beam.
[0007] The aforementioned integrated air conditioner includes a height adjustment component comprising a base and a left and right frame mounted on the base. The bottoms of the left and right frames are movably connected to the base, and the tops of the left and right frames are movably connected to the bottom of the support base plate. The middle positions of the left and right frames are connected by a rotating connector to form an X-shaped mounting bracket.
[0008] In the aforementioned integrated air conditioner, both the left and right frames include two parallel side beams. The tops of the two side beams are connected by an upper connecting rod, and the bottoms of the two side beams are connected by a lower connecting rod.
[0009] In the aforementioned integrated air conditioner, the bottom of the supporting base plate is provided with a side plate along the circumferential direction, wherein a strip groove is provided on the side plate along the length direction, and the two ends of the upper connecting rod are restricted to movement within the strip groove.
[0010] In the aforementioned integrated air conditioner, a rotating mounting hole is provided at the middle position of the side beam for installing the rotating connector.
[0011] The aforementioned integrated air conditioner also includes an adjustment drive assembly, which includes a rotary adjustment screw with a first threaded section and a second threaded section. A left movable seat is provided at the bottom of the left frame, and the left movable seat is induced to be connected to the first threaded section. A right movable seat is provided at the bottom of the right frame, and the right movable seat is induced to be connected to the second threaded section.
[0012] The aforementioned integrated air conditioner also includes a movable guide component. The left movable seat and the right movable seat are respectively provided with the movable guide component. The movable guide component includes a limiting seat and a connecting column. The end of the connecting column is fixedly connected to the bearing seat of the mounting seat. The left movable seat and the right movable seat are provided with a motion through hole for the connecting column to pass through.
[0013] In the above technical solution, the integrated air conditioner provided by this utility model includes an air conditioner body and a mounting bracket for installing the air conditioner body. The mounting bracket includes a mounting base and a support set on the mounting base. The support includes a vertical beam and a horizontal beam. The vertical beam is provided with a plurality of fixed mounting holes in sequence along the height direction. The horizontal beam is fixedly installed in the fixed mounting holes and a hanging bracket is provided on the horizontal beam. The air conditioner body is provided with mounting screw holes for fixing the hanging bracket. The hanging bracket can be snapped and fixed on the horizontal beam. The mounting base is provided with a support mechanism, which includes a support base plate and a height adjustment component. In this way, the integrated air conditioner can be installed through the mounting bracket. During the installation process, the hanging bracket is first fixed on the air conditioner body. Through the cooperation of the support base plate and the height adjustment component, the hanging bracket can be easily snapped and fixed on the horizontal beam. Finally, the hanging bracket and the horizontal beam are fixed. The support base plate supports the air conditioner body, which facilitates the installation and fixing of the air conditioner body. Attached Figure Description
[0014] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments recorded in this utility model. For those skilled in the art, other drawings can be obtained based on these drawings.
[0015] Figure 1 An installation diagram of an integrated air conditioner provided for an embodiment of this utility model;
[0016] Figure 2 A front view of the mounting bracket provided in an embodiment of this utility model;
[0017] Figure 3 Right view of the mounting bracket provided in an embodiment of this utility model;
[0018] Figure 4 This is a schematic diagram of the structure of the supporting base plate provided in an embodiment of the present utility model;
[0019] Figure 5 This is a schematic diagram of the height adjustment component provided in an embodiment of the present invention.
[0020] Explanation of reference numerals in the attached figures:
[0021] 1. Mounting bracket; 11. Mounting seat; 12. Vertical beam; 121. Fixed mounting hole; 13. Horizontal beam; 14. Suspension bracket; 2. Support mechanism; 21. Support base plate; 3. Height adjustment assembly; 31. Left frame; 311. Left movable seat; 32. Right frame; 321. Right movable seat; 33. X-type mounting bracket; 331. Rotary connector; 34. Side beam; 35. Upper connecting rod; 36. Lower connecting rod; 37. Base; 4. Adjustment drive assembly; 41. Rotary adjusting screw; 411. First threaded section; 412. Second threaded section; 42. Moving guide component; 421. Limiting seat; 422. Connecting column; 43. Mounting side seat; 5. Air conditioner body. Detailed Implementation
[0022] To enable those skilled in the art to better understand the technical solution of this utility model, the present utility model will be further described in detail below with reference to the accompanying drawings.
[0023] like Figure 1-5 As shown, this utility model provides an integrated air conditioner, including an air conditioner body 5 and a mounting bracket 1 for installing the air conditioner body 5. The mounting bracket 1 includes a mounting base 11 and a frame body disposed on the mounting base 11. The frame body includes a vertical beam 12 and a horizontal beam 13. The vertical beam 12 is provided with a plurality of fixed mounting holes 121 in sequence along the height direction. The horizontal beam 13 is fixedly installed in the fixed mounting holes 121. A hanging bracket 14 is provided on the horizontal beam 13. The air conditioner body 5 is provided with mounting screw holes for fixing the hanging bracket 14. The hanging bracket 14 can be snapped and fixed on the horizontal beam 13. A support mechanism 2 is provided on the mounting base 11. The support mechanism 2 includes a support base plate 21 and a height adjustment component 3. The support base plate 21 is slidably connected to the vertical beam 12. The height adjustment component 3 is disposed on the mounting base 11. The support base plate 21 is driven by the height adjustment component 3 and can move up and down along the vertical beam 12. A fixing member is provided on the support base plate 21 that can be fixed on the fixed mounting holes 121.
[0024] Specifically, the air conditioner unit 5 is an integrated cabinet structure with an overall rectangular shape. Its front features an air outlet grille, and the top panel integrates a touch control area and display screen, which can display the current temperature, operating mode, and fan speed level in real time. The unit contains core cooling and heating components such as a compressor, evaporator, and condenser. A pipe interface is pre-installed on the back for connecting to the outdoor refrigerant piping. The working principles of the relevant modules in the air conditioner unit 5 are not detailed here. Mounting screw holes are located on the back of the air conditioner unit 5 and are positioned on the load-bearing structure inside the unit.
[0025] In this embodiment, the mounting frame 1 consists of two parts: a mounting base 11 and a frame body. The mounting base 11 is formed by bending high-strength steel plate into a rectangular frame structure. The vertical beams 12 of the frame body are two channel steels of the same specification. The vertical beams 12 are provided with multiple fixing holes 121 along the height direction. The holes are tapped with standard internal threads, and the edges of the holes are countersunk to facilitate the complete insertion of bolt heads. The horizontal beam 13 is a plate-shaped structure. Connecting holes are provided at both ends of the horizontal beam 13. The connecting holes match the fixing holes 121, and can be connected to the fixing holes 121 of the vertical beam 12 by high-strength bolts.
[0026] There are two suspension brackets 14. Each suspension bracket 14 includes a strip mounting plate and a clamping plate set on the strip mounting plate. The strip mounting plate is provided with fixing holes. The strip mounting plate is provided with mounting screw holes on the back of the air conditioner body 5, so that the strip mounting plate can be fixedly installed on the air conditioner body 5. During the installation process, the clamping plate is engaged and fixed on the crossbeam 13, thereby realizing the connection between the suspension bracket 14 and the crossbeam 13. Then, the fixed connection between the crossbeam 13 and the suspension bracket 14 is realized by bolts.
[0027] In this embodiment, the support base plate 21 of the support mechanism 2 is a rectangular steel plate with sliders at both ends. The sliders are slidably connected to the vertical beam 12. The height adjustment component 3 is mounted on the mounting base 11. The support base plate 21 is connected to the top of the height adjustment component 3. The height of the support base plate 21 can be adjusted by operating the height adjustment component 3.
[0028] In this embodiment, during installation, the position of the crossbeam 13 is first adjusted according to the installation requirements of the air conditioner body 5. The through holes on the connecting plates at both ends of the crossbeam 13 are aligned with the corresponding fixing holes 121 on the vertical beam 12. Bolts are inserted and anti-loosening nuts are tightened to complete the fixing of the crossbeam 13.
[0029] The air conditioner body 5 is moved to the installation position, and the hanging bracket 14 is fixedly installed on the back of the air conditioner body 5, which has mounting screw holes. The height of the support base plate 21 is adjusted by the height adjustment component 3 so that the height of the support base plate 21 is higher. During the installation of the air conditioner body 5, the bottom of the air conditioner body 5 is placed on the support base plate 21. At this time, the position of the hanging bracket 14 is higher than the position of the crossbeam 13. Then, the position of the support base plate 21 is adjusted by the height adjustment component 3 so that the height of the support base plate 21 is lowered. The position of the air conditioner body 5 is lowered simultaneously until the hanging bracket 14 is engaged with the crossbeam 13. Then, the hanging bracket 14 and the crossbeam 13 are fixed together, thereby realizing the hanging installation of the air conditioner body 5. The support base plate 21 supports the bottom of the air conditioner body 5.
[0030] The integrated air conditioner provided by this utility model includes an air conditioner body 5 and a mounting bracket 1 for mounting the air conditioner body 5. The mounting bracket 1 includes a mounting base 11 and a support set on the mounting base 11. The support includes a vertical beam 12 and a horizontal beam 13. The vertical beam 12 is provided with a plurality of fixing mounting holes 121 in sequence along the height direction. The horizontal beam 13 is fixedly installed in the fixing mounting holes 121. A hanging bracket 14 is provided on the horizontal beam 13. The air conditioner body 5 is provided with mounting screw holes for fixing the hanging bracket 14. The hanging bracket 14 can be snapped and fixed on the horizontal beam 13. The mounting base 11... A support mechanism 2 is provided on the top, which includes a support base plate 21 and a height adjustment component 3. In this way, integrated air conditioners of different specifications can be installed through the mounting bracket 1. During the installation process, the hanging bracket 14 is first fixed on the air conditioner body 5. Through the cooperation of the support base plate 21 and the height adjustment component 3, the hanging bracket 14 can be easily locked and fixed on the crossbeam 13. Finally, the hanging bracket 14 and the crossbeam 13 are fixed, and the support base plate 21 supports the air conditioner body 5. This facilitates the installation and fixation of the air conditioner body 5 during the server expansion process.
[0031] In this embodiment, preferably, the height adjustment component 3 includes a base 37 and a left frame 31 and a right frame 32 disposed on the base 37. The bottoms of the left frame 31 and the right frame 32 are movably connected to the base 37, and the tops of the left frame 31 and the right frame 32 are movably connected to the bottom of the support base plate 21. The middle positions of the left frame 31 and the right frame 32 are connected by a rotating connector 331 to form an X-shaped mounting bracket 331. The base 37 is a rectangular seat, and the base 37 is mounted on the mounting base 11. The left frame 31 and the right frame 32 are made of high-strength steel. The left frame 31 and the right frame 32 have the same structure. Both the left frame 31 and the right frame 32 include two parallel side beams 34. The tops of the two side beams 34 are connected by an upper connecting rod 35, and the bottoms of the two side beams 34 are connected by a lower connecting rod 36. Thus, the two side beams 34, the upper connecting rod 35 and the lower connecting rod 36 form a rectangular frame. A rotating connector 331 is provided in the middle of the left frame 31 and the right frame 32. The left frame 31 and the right frame 32 are connected by the rotating connector 331 to form an X-shaped mounting frame 331.
[0032] In this embodiment, preferably, a rotating mounting hole for mounting the rotating connector 331 is provided at the middle position of the side beam 34. The rotating connector 331 allows the left frame 31 and the right frame 32 to rotate. When the bottom of the left frame 31 and the right frame 32 are driven to move closer to each other, the X-shaped mounting bracket 331 becomes higher and the position of the supporting base plate 21 becomes higher. Conversely, when the bottom of the left frame 31 and the right frame 32 are driven to move apart from each other, the X-shaped mounting bracket 331 becomes lower and the position of the supporting base plate 21 becomes lower.
[0033] In this embodiment, preferably, the bottom of the support base plate 21 is provided with a side plate along the circumferential direction, wherein a strip groove is provided on the side plate in the length direction, and the two ends of the upper connecting rod 35 are restricted to move within the strip groove, so that when the height of the X-shaped support frame is adjusted, the upper connecting rod 35 moves along the strip groove.
[0034] In this embodiment, preferably, the adjustment drive assembly 4 includes a rotary adjustment screw 41, on which a first threaded section 411 and a second threaded section 412 are provided. A left movable seat 311 is provided at the bottom of the left frame 31, and the left movable seat 311 is connected to the first threaded section 411 in a transmission connection. A right movable seat 321 is provided at the bottom of the right frame 32, and the right movable seat 321 is connected to the second threaded section 412 in a transmission connection. The bottom of the right frame 32 is provided with a right movable seat 321, which is connected to the second threaded section 412. A bearing seat for mounting the rotary adjusting screw 41 is provided on the mounting base 37. The left movable seat 311 and the right movable seat 321 are provided with mounting through holes that match the rotary adjusting screw 41. A ball screw structure is formed between the left movable seat 311 and the rotary adjusting screw 41, and between the right movable seat 321 and the rotary adjusting screw 41. Thus, when the rotary adjusting screw 41 rotates, it can correspondingly drive the left movable seat 311 and the right movable seat 321 to move along the axial direction of the rotary adjusting screw 41.
[0035] When the height of the X-shaped support frame needs to be adjusted, the operator rotates the adjusting screw 41 manually or with a power tool. Since the threads of the first threaded section 411 and the second threaded section 412 are in opposite directions, the left moving seat 311 and the right moving seat 321 move in opposite directions along the adjusting screw 41. For example, when the adjusting screw 41 is rotated clockwise, the left moving seat 311 moves to the left along the first threaded section 411, and the right moving seat 321 moves to the right along the second threaded section 412. As the two moving seats move relative to each other, the bottoms of the connected left frame 31 and right frame 32 move closer together. Since the left frame 31 and right frame 32 are connected by the rotating connector 331 to form the X-shaped support frame structure, the X-shaped mounting bracket 331 rises as the bottoms move closer together, raising the position of the support base plate 21. Conversely, when the adjusting screw 41 rotates counterclockwise, the left moving seat 311 and the right moving seat 321 will move in the direction of separation, causing the bottom of the left frame 31 and the right frame 32 to separate and unfold, the X-shaped mounting bracket 331 becomes shorter, and the position of the supporting base plate 21 becomes lower.
[0036] In this embodiment, preferably, a movable guide member 42 is also included. The left movable seat 311 and the right movable seat 321 are each respectively provided with a movable guide member 42. The movable guide member 42 includes a limiting seat 421, a mounting side seat 43, and a connecting column 422 disposed between the limiting seat 421 and the mounting side seat 43. The end of the connecting column 422 is fixedly connected to the bearing seat of the mounting side seat 43. The left movable seat 311 and the right movable seat 321 are provided with a motion through hole for the connecting column 422 to pass through. The limiting seat 421 is arranged parallel to the mounting side seat 43. The two mounting side seats 43 are located at both ends of the base 37, and the two limiting seats 421 are located between the two bearing seats. The two limiting seats 421 and the two mounting side seats 43 are located on the same straight line. The limiting seat 421 is provided with a through hole through which the rotating adjusting screw 41 can pass and rotate. Each limiting seat 421 is provided with two connecting posts 422. The other end of the connecting post 422 is fixedly connected to the mounting side seat 43. The left moving seat 311 and the right moving seat 321 are provided with movement through holes through which the connecting posts 422 can pass. That is, the left moving seat 311 and the right moving seat 321 are each provided with two movement through holes. Thus, the mounting side seat 43 and the limiting seat 421 form a limiting structure that restricts the movement of the left moving seat 311 and the right moving seat 321. That is, the left moving seat 311 and the right moving seat 321 can only move along the connecting post 422.
[0037] In this embodiment, preferably, the length of the travel of the left moving seat 311 and the right moving seat 321 corresponds to the length of the connecting column 422. Taking the left moving seat 311 as an example, when the left moving seat 311 is driven to move to the right and abuts against the mounting side seat 43, the left moving seat 311 cannot continue to move. When the left moving seat 311 moves to the left and abuts against the limiting seat 421, the left moving seat 311 also cannot continue to move.
[0038] The foregoing description only illustrates certain exemplary embodiments of the present invention. Undoubtedly, those skilled in the art can modify the described embodiments in various ways without departing from the spirit and scope of the present invention. Therefore, the above drawings and descriptions are illustrative in nature and should not be construed as limiting the scope of protection of the claims of the present invention.
Claims
1. An integrated air conditioner, characterized in that, The system includes an air conditioner body and a mounting bracket for mounting the air conditioner body. The mounting bracket includes a mounting base and a frame mounted on the mounting base. The frame includes a vertical beam and a horizontal beam. The vertical beam has multiple fixing holes arranged sequentially along its height. The horizontal beam is fixedly installed in the fixing holes and a hanging bracket is provided on the horizontal beam. The air conditioner body has mounting screw holes for fixing the hanging bracket. The hanging bracket can be snapped onto the horizontal beam. The mounting base is provided with a support mechanism. The support mechanism includes a support base plate and a height adjustment component. The support base plate is slidably connected to the vertical beam. The height adjustment component is provided on the mounting base. The support base plate is driven by the height adjustment component and can move up and down along the vertical beam.
2. The integrated air conditioner according to claim 1, characterized in that, The height adjustment assembly includes a base and a left frame and a right frame disposed on the base. The bottom of the left frame and the right frame are movably connected to the base, and the top of the left frame and the right frame are movably connected to the bottom of the support base plate. The middle position of the left frame and the right frame is connected by a rotating connector to form an X-shaped mounting bracket.
3. The integrated air conditioner according to claim 2, characterized in that, Both the left and right frames include two parallel side beams, with the tops of the two side beams connected by an upper connecting rod and the bottoms of the two side beams connected by a lower connecting rod.
4. The integrated air conditioner according to claim 3, characterized in that, The bottom of the support base plate is provided with a side plate along the circumferential direction, and a strip groove is provided on the side plate along the length direction. The two ends of the upper connecting rod are restricted to move within the strip groove.
5. The integrated air conditioner according to claim 3, characterized in that, The side beam has a rotating mounting hole at the middle position for installing the rotating connector.
6. The integrated air conditioner according to claim 5, characterized in that, It also includes an adjustment drive assembly, which includes a rotary adjustment screw with a first threaded section and a second threaded section. A left movable seat is provided at the bottom of the left frame, and the left movable seat is drivenly connected to the first threaded section. A right movable seat is provided at the bottom of the right frame, and the right movable seat is drivenly connected to the second threaded section.
7. The integrated air conditioner according to claim 6, characterized in that, It also includes a movable guide component, with the left movable seat and the right movable seat each correspondingly provided with the movable guide component. The movable guide component includes a limiting seat and a connecting column. The end of the connecting column is fixedly connected to the bearing seat of the mounting seat. The left movable seat and the right movable seat are provided with a motion through hole for the connecting column to pass through.