A mounting rack for a cooling fan of a refrigeration device
By adjusting the T-shaped frame structure and rotating blocks, absorbing collision energy with the buffer components, and flexibly adjusting the limiting mechanism, the problems of inconvenient installation and loose screws of the air cooler are solved, achieving convenient, stable, and versatile installation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANDONG YOUDU REFRIGERATION TECH CO LTD
- Filing Date
- 2025-07-21
- Publication Date
- 2026-06-26
AI Technical Summary
Existing evaporative air cooler mounting brackets are easily obstructed during installation, making installation inconvenient. Furthermore, the fixed obstruction structure cannot be flexibly adjusted, making it difficult to stably fix evaporative air coolers of different specifications, and there is a risk of screws loosening and slipping.
The mounting bracket adopts a T-shaped frame structure, which combines the rotational connection between the rotating block and the rotating groove, and the cooperation between the plug and the bolt hole to realize the position adjustment of the rotating block. The damping and spring in the buffer component absorb the collision energy, and the sliding cooperation between the L-shaped pressure plate and the T-shaped slide groove realizes the stable fixation of air coolers of different specifications.
This design achieves convenient and stable installation of the air cooler, avoids loosening of screws due to rigid collisions, and improves the versatility and safety of the mounting bracket.
Smart Images

Figure CN224415495U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of equipment mounting brackets, specifically referring to a mounting bracket for a refrigeration equipment air cooler. Background Technology
[0002] In the installation and application of refrigeration equipment, evaporative coolers, as important heat dissipation or cooling components, often need to be fixed to walls or other supporting structures using mounting brackets. Currently, most evaporative cooler mounting brackets on the market adopt a fixed frame structure, mainly composed of a mounting body and simple supporting components. After the mounting bracket is fixed to the wall with screws and other fasteners, the evaporative cooler is placed on the mounting bracket to complete the installation.
[0003] However, existing mounting brackets have many shortcomings in practical use: the blocking structure of the mounting brackets is mostly fixed, and the air cooler is easily obstructed by the blocking structure when being pushed into the mounting bracket, resulting in inconvenience in installation. Moreover, the fixed blocking structure cannot be flexibly adjusted, making it difficult to meet the dual requirements of pushing in and limiting the air cooler. When installing the air cooler, it usually needs to be pushed into the mounting bracket from top to bottom or from the front. During the lowering process, it is easy to have a rigid collision with the mounting bracket. This collision force will be transmitted to the screws connecting the mounting bracket to the wall. Long-term or repeated collisions can easily cause the screws to loosen, reduce installation stability, and even pose a safety hazard of the air cooler slipping. Different sizes of air coolers have different dimensions, and the limiting structure of existing mounting brackets is mostly fixed in size, which cannot be flexibly adjusted according to the specifications of the air cooler. This results in poor versatility and makes it difficult to achieve stable fixation for air coolers of different sizes. Utility Model Content
[0004] The present invention mainly addresses the aforementioned technical problems.
[0005] To solve the above problems, the technical solution adopted by this utility model is as follows: The mounting bracket for a refrigeration equipment cooler proposed by this utility model includes a mounting bracket body and a cooler. A support frame is fixedly connected to the side of the mounting bracket body to form a T-shaped frame structure. Mounting screw holes are provided at all four corners of the mounting bracket body to facilitate the use of screws to install and fix the mounting bracket body. It also includes a buffer component and a limiting mechanism.
[0006] The support frame is provided with movable blocking mechanisms on both sides of the end away from the main body of the mounting frame. The movable blocking mechanism includes a rotating block. The rotating block and the support frame are movably arranged so as to limit the movement of the air cooler without affecting its movement.
[0007] The buffer components are respectively located on both sides of the support frame near the main body of the mounting frame, and are used to assist in supporting the air cooler;
[0008] The limiting mechanism is located on both sides of the upper part of the mounting frame body. The limiting mechanism includes a pressure plate, which is movably arranged with the mounting frame body to fix air coolers of different specifications.
[0009] Furthermore, the support frame has rotating grooves on both sides of the end away from the main body of the mounting frame, and the rotating block and the rotating groove are rotatably connected.
[0010] Furthermore, the rotating block is fixedly connected to a long arm and a short arm in an L-shaped structure, and a bolt hole is opened on one side of the short arm. Bolt holes are also opened on both sides of the support frame, and are correspondingly connected to the bolt holes on the rotating block.
[0011] Furthermore, there are two sets of bolt holes on the outer side of the support frame, and their axes form an L-shape with the axis of the rotating block and the rotating groove at the rotating connection.
[0012] Furthermore, the movable blocking mechanism also includes a bolt, which is sequentially inserted into the bolt hole on the outside of the support frame and the bolt hole on the side of the rotating block.
[0013] Furthermore, the buffer assembly includes a damper, a spring, and a pad. The support frame has mounting grooves on both sides near the main body of the mounting frame. The pad is movably disposed in the mounting groove. The bottom end of the damper is connected to the bottom of the inner side of the mounting groove. The top end of the damper is fixedly connected to the bottom of the pad. The spring is sleeved on the outside of the damper, and its two ends are respectively connected to the mounting groove and the pad.
[0014] Furthermore, the upper sides of the mounting frame body are provided with T-shaped grooves, the pressure plate is designed with an L-shaped structure, the bottom of the pressure plate and the groove are slidably fitted together, and the side of the pressure plate and the inner wall of the groove are slidably fitted together.
[0015] Furthermore, the side of the pressure plate and the inner wall of the slide groove are provided with several limiting screw holes, and the positions are correspondingly arranged. The limiting mechanism also includes bolts, which are threaded through the limiting screw holes on the pressure plate and the limiting screw holes in the slide groove in sequence.
[0016] The beneficial effects of this utility model by adopting the above structure are as follows:
[0017] 1. The mounting bracket for the refrigeration equipment cooler proposed in this solution achieves position adjustment of the rotating block through the rotational connection between the rotating block and the rotating slot, combined with the cooperation of the bolt and the bolt hole. In the initial state, the rotating block is flush with the upper surface of the support frame, making it easy to push the cooler in; after pushing it in, rotating the rotating block and fixing it with the bolt can effectively limit the cooler and prevent it from slipping, thus balancing installation convenience and limiting stability.
[0018] 2. The mounting bracket for the refrigeration equipment cooler proposed in this solution uses damping and springs in the buffer assembly to absorb collision energy during the lowering of the cooler, avoiding rigid collisions between the cooler and the support frame. This reduces the risk of loosening of the mounting bracket's screws connecting to the wall, improves installation stability, and extends the service life of the mounting bracket.
[0019] 3. The mounting bracket for refrigeration equipment air coolers proposed in this solution features a sliding fit between an L-shaped pressure plate and a T-shaped sliding groove, combined with the fixing of bolts and limit screw holes. The position of the pressure plate can be flexibly adjusted according to the specifications of the air cooler, achieving stable fixing of air coolers of different sizes and improving the versatility and applicability of the mounting bracket. Attached Figure Description
[0020] Figure 1 This is a schematic diagram of the first overall structure of the present invention;
[0021] Figure 2 This is a schematic cross-sectional view of the present invention;
[0022] Figure 3 This is a schematic diagram of the second overall structure of the present invention;
[0023] Figure 4 for Figure 3 A magnified view of a portion of point A in the middle.
[0024] Among them, 1. Mounting frame body, 101. Support frame, 102. Reinforcing rib, 103. Mounting screw hole, 2. Movable blocking mechanism, 201. Rotating groove, 202. Rotating stop block, 203. Bolt hole, 204. Insert bolt, 3. Buffer assembly, 301. Mounting groove, 302. Damping, 303. Spring, 304. Pad, 4. Limiting mechanism, 401. Slide groove, 402. Pressure plate, 403. Bolt, 404. Limiting screw hole.
[0025] The accompanying drawings are provided to further understand the present invention and form part of the specification. They are used together with the embodiments of the present invention to explain the present invention and do not constitute a limitation thereof. Detailed Implementation
[0026] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the protection scope of the present utility model.
[0027] like Figure 1-4As shown, the present invention proposes a mounting bracket for a refrigeration equipment cooler, comprising a mounting bracket body 1 and a cooler. A support frame 101 is fixedly connected to the side of the mounting bracket body 1, forming a T-shaped frame structure. Mounting screw holes 103 are provided at all four corners of the mounting bracket body 1 for easy screw mounting. The device also includes a buffer assembly 3 and a limiting mechanism 4. Movable blocking mechanisms 2 are provided on both sides of the support frame 101 away from the mounting bracket body 1. Each movable blocking mechanism 2 includes a rotating stop 202, which is movably arranged with the support frame 101, limiting the movement of the cooler without affecting its movement. The buffer assembly 3 is respectively located on both sides of the support frame 101 near the mounting bracket body 1, assisting in supporting the cooler. The limiting mechanism 4 is located on both sides of the upper part of the mounting bracket body 1, and includes a pressure plate 402, which is movably arranged with the mounting bracket body 1, used to fix coolers of different specifications.
[0028] like Figure 1-2 As shown, the support frame 101 has rotating grooves 201 on both sides of the end away from the mounting frame body 1. The rotating block 202 is rotatably connected to the rotating groove 201. The rotating block 202 is fixed in an L-shaped structure by a long arm and a short arm structure. A bolt hole 203 is provided on one side of the short arm. Bolt holes 203 are also provided on both sides of the support frame 101 and are correspondingly connected to the bolt holes 203 on the rotating block 202. There are two sets of bolt holes 203 on the outside of the support frame 101. Their axes are in an L-shaped structure with the axis of the rotating block 202 and the rotating groove 201 at the rotatable connection. The movable blocking mechanism 2 also includes a bolt 204. The bolt 204 is inserted into the bolt holes 203 on the outside of the support frame 101 and the bolt holes 203 on the side of the rotating block 202 in sequence.
[0029] like Figure 1-2 As shown, the buffer assembly 3 includes a damper 302, a spring 303, and a pad 304. The support frame 101 has mounting grooves 301 on both sides near the mounting frame body 1. The pad 304 is movably disposed in the mounting groove 301. The bottom end of the damper 302 is connected to the bottom of the inner side of the mounting groove 301, and the top end of the damper 302 is fixedly connected to the bottom of the pad 304. The spring 303 is sleeved on the outside of the damper 302, and its two ends are respectively connected to the mounting groove 301 and the pad 304. It is used to buffer the air cooler when it is installed from top to bottom, so as to avoid rigid collision between the air cooler and the support frame 101, which would cause the screws at the connection between the mounting screw hole 103 and the wall to loosen, thereby increasing the installation stability.
[0030] like Figure 1-4As shown, the upper part of the mounting bracket body 1 has T-shaped sliding grooves 401 on both sides, and the pressure plate 402 is designed with an L-shaped structure. The bottom of the pressure plate 402 and the sliding groove 401 are slidably fitted together, and the side of the pressure plate 402 and the inner wall of the sliding groove 401 are slidably attached together. Several limiting screw holes 404 are provided through the side of the pressure plate 402 and the inner wall of the sliding groove 401, and their positions are correspondingly set. The limiting mechanism 4 also includes bolts 403, which are threaded through the limiting screw holes 404 on the pressure plate 402 and the limiting screw holes 404 in the sliding groove 401 in sequence to fix the position of the pressure plate 402.
[0031] In practical use, the mounting bracket body 1 is fixed to the wall where the air cooler needs to be installed using screws through the mounting screw holes 103. The initial position of the rotating stop 202 is flush with the upper surface of the support frame 101. Compared with the conventional fixed stop, the rotatable and adjustable rotating stop 202 makes it easier to push the air cooler into the support frame 101 from the top front. It also has the advantages of simple structure and convenient operation. After pushing it in, the rotating stop 202 is rotated upward, and the bolts 204 are inserted into the bolt holes 203 on the outside of the support frame 101 and the bolt holes 203 on the outside of the rotating stop 202 in sequence to limit the position of the rotating stop 202, so that it can limit and block the air cooler and prevent it from slipping off the support frame 101 during use.
[0032] When the air cooler is placed on the support frame 101, the pressure plate 402 is inserted into the slide groove 401 and slid to the top of the air cooler. Bolts 403 are then inserted through the limiting screw holes 404 on the pressure plate 402 and the limiting screw holes 404 in the slide groove 401 to fix the pressure plate 402. At this time, the pressure plate 402 limits the position of the air cooler, preventing it from tipping over from above the support frame 101 during use. The structure is simple and easy to fix.
[0033] The present invention and its embodiments have been described above. This description is not restrictive, and the accompanying drawings are only one embodiment of the present invention; the actual structure is not limited thereto. In conclusion, if those skilled in the art are inspired by this description and design similar structures and embodiments without departing from the inventive spirit of the present invention, such designs should fall within the protection scope of the present invention.
Claims
1. A mounting bracket for a refrigeration equipment cooler, comprising a mounting bracket body (1) and a cooler, wherein a support frame (101) is fixedly connected to the side of the mounting bracket body (1) to form a T-shaped frame structure, and mounting screw holes (103) are provided at each of the four corners of the mounting bracket body (1), characterized in that, It also includes a buffer assembly (3) and a limiting mechanism (4): The support frame (101) is provided with movable blocking mechanisms (2) on both sides of the end away from the mounting frame body (1). The movable blocking mechanism (2) includes a rotating block (202). The rotating block (202) and the support frame (101) are movably arranged so as to limit the movement of the air cooler without affecting its movement. The buffer components (3) are respectively located on both sides of the support frame (101) near the mounting frame body (1) to assist in supporting the air cooler; The limiting mechanism (4) is located on both sides of the upper part of the mounting frame body (1). The limiting mechanism (4) includes a pressure plate (402). The pressure plate (402) and the mounting frame body (1) are movably arranged to fix air coolers of different specifications.
2. The mounting bracket for a refrigeration equipment cooler according to claim 1, characterized in that: The support frame (101) has rotating grooves (201) on both sides of the end away from the mounting frame body (1), and the rotating block (202) and the rotating groove (201) are rotatably connected.
3. The mounting bracket for a refrigeration equipment cooler according to claim 2, characterized in that: The rotating stop (202) is fixed in an L-shaped structure by a long arm and a short arm, and a bolt hole (203) is provided on one side of the short arm. Bolt holes (203) are also provided on both sides of the support frame (101), and are correspondingly connected to the bolt holes (203) on the rotating stop (202).
4. The mounting bracket for a refrigeration equipment cooler according to claim 3, characterized in that: There are two sets of bolt holes (203) on the outside of the support frame (101), and their axes are L-shaped with the axis of the rotating block (202) and the axis of the rotating groove (201) at the rotating connection.
5. The mounting bracket for a refrigeration equipment cooler according to claim 4, characterized in that: The movable blocking mechanism (2) also includes a bolt (204), which is inserted into the bolt hole (203) on the outside of the support frame (101) and the bolt hole (203) on the side of the rotating block (202) in sequence.
6. The mounting bracket for a refrigeration equipment cooler according to claim 1, characterized in that: The buffer assembly (3) includes a damper (302), a spring (303), and a pad (304). The support frame (101) has mounting grooves (301) on both sides near the mounting frame body (1). The pad (304) is movably disposed in the mounting groove (301). The bottom end of the damper (302) is connected to the bottom of the inner side of the mounting groove (301). The top end of the damper (302) is fixedly connected to the bottom of the pad (304). The spring (303) is sleeved on the outside of the damper (302), and its two ends are respectively connected to the mounting groove (301) and the pad (304).
7. The mounting bracket for a refrigeration equipment cooler according to claim 1, characterized in that: The mounting bracket body (1) has T-shaped grooves (401) on both sides of the upper part, the pressure plate (402) is designed as an L-shaped structure, the bottom of the pressure plate (402) and the groove (401) are slidably fitted together, and the side of the pressure plate (402) and the inner wall of the groove (401) are slidably fitted together.
8. The mounting bracket for a refrigeration equipment cooler according to claim 7, characterized in that: The side of the pressure plate (402) and the inner wall of the slide groove (401) are provided with a number of limiting screw holes (404) and the positions are correspondingly arranged. The limiting mechanism (4) also includes a bolt (403), which is threaded through the limiting screw holes (404) on the pressure plate (402) and the limiting screw holes (404) in the slide groove (401) in sequence.