Efficient energy-saving evaporator structure

By introducing a connection design of sliders and grooves, inserts and slots, as well as guide components and magnetic limiters in the evaporator of the cold storage, the problem of requiring multiple people to work together to disassemble the frame has been solved, and the effect of convenient disassembly and stable installation by a single person has been achieved.

CN224470487UActive Publication Date: 2026-07-07JIANGSU HENGDING NEW ENERGY TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU HENGDING NEW ENERGY TECH CO LTD
Filing Date
2025-06-17
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

The dismantling of the existing cold storage evaporator frame requires multiple people to work together, which increases labor costs and is inconvenient to operate.

Method used

The design employs a sliding connection between the slider and the groove, and a snap-fit ​​connection between the insert and the slot. Combined with a guide component and a magnetic limiting structure, this simplifies the disassembly process of the frame.

Benefits of technology

It enables a single person to easily disassemble the auxiliary frame, reducing labor costs and improving disassembly efficiency. The limiting structure ensures the stability of the installation and facilitates the replacement of the protective plate.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of high-efficiency energy-saving evaporator structures, belong to evaporator technical field, including bottom plate and main frame being installed on bottom plate, pipeline is installed on main frame, main fin is installed on pipeline, auxiliary fin is installed on main fin, auxiliary frame is installed on bottom plate, sliding block is installed on auxiliary frame, sliding slot that is mutually matched with sliding block is opened on bottom plate, main fin is installed on side block, auxiliary fin is installed on main fin.The utility model is slidably connected by setting sliding block and sliding slot, can be convenient to disassemble auxiliary frame, and multiple workers do not need to work together, disassembly is more convenient, by setting plug and slot snap connection, it can be convenient to limit after installing auxiliary frame.
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Description

Technical Field

[0001] This utility model relates to an evaporator structure, and more particularly to a high-efficiency and energy-saving evaporator structure, belonging to the field of evaporator technology. Background Technology

[0002] Cold storage facilities are the infrastructure for the development of the refrigeration industry and are building complexes for storing goods under low-temperature conditions. Cold storage evaporators are a common type of refrigeration equipment. They consist of aluminum pipes filled with refrigerant installed inside the cold storage facility to keep food fresh through continuous cooling.

[0003] According to utility model application number 202321261816.0, a high-efficiency and energy-saving aluminum alloy finned tube cold storage evaporator is disclosed, including a first frame, a second frame is provided on one outer surface of the first frame, mounting columns are fixedly connected to the four corners of one outer surface of the first frame, connecting grooves are provided on both outer surfaces of the mounting columns, rotating shafts are provided on one inner wall of each connecting groove, and fixing blocks are fixedly connected to the outer surface of the rotating shafts. In actual use, the above technical solution requires four sets of fixing blocks, and the frame needs to be pressed down simultaneously to disassemble it, which requires multiple people to work together, thus increasing labor costs and making disassembly inconvenient. Utility Model Content

[0004] The main purpose of this utility model is to solve the problem of inconvenient frame disassembly and to provide a high-efficiency and energy-saving evaporator structure.

[0005] The objective of this utility model can be achieved by adopting the following technical solution:

[0006] A high-efficiency and energy-saving evaporator structure includes a base plate and a main frame mounted on the base plate. Pipes are installed on the main frame, main fins are installed on the pipes, and auxiliary fins are installed on the main fins. An auxiliary frame is installed on the base plate, and a slider is installed on the auxiliary frame. A sliding groove that cooperates with the slider is opened on the base plate. Main fins are installed on the side blocks, and auxiliary fins are installed on the main fins.

[0007] Preferably, the slider is a T-shaped slider and the groove is a T-shaped groove.

[0008] Preferably, a guide component is installed on the auxiliary frame, a movable plate is installed on the guide component, an insert block is installed on the movable plate, and a slot that cooperates with the insert block is provided on the base plate.

[0009] Preferably, the guiding assembly includes a guide rod, a slip ring, a side block, and a connecting rod. The guide rod is mounted on the auxiliary frame, the slip ring is slidably mounted on the guide rod, the side block is mounted on the slip ring, and the connecting rod is mounted on the side block. One end of the connecting rod is connected to the movable plate.

[0010] Preferably, a connecting plate is mounted on the guide rod, and the slip ring is connected to the connecting plate by a spring.

[0011] Preferably, a handle is mounted on the movable plate, and an anti-slip pad is mounted on the handle.

[0012] Preferably, protective plates are installed on the auxiliary frame and the main frame.

[0013] Preferably, the protective plate is equipped with mounting blocks, and the auxiliary frame and the main frame are provided with mounting grooves that cooperate with the mounting blocks.

[0014] Preferably, a main magnet is mounted on the mounting block, and auxiliary magnets that cooperate with the main magnet are mounted on both the main frame and the auxiliary frame.

[0015] The beneficial technical effects of this utility model are as follows:

[0016] 1. According to the high-efficiency and energy-saving evaporator structure of this utility model, by setting a slider and a sliding groove for sliding connection, the auxiliary frame can be easily disassembled, and multiple workers are not required to work together, making disassembly relatively convenient.

[0017] 2. By setting the plug and slot to engage, it is easy to limit the position of the auxiliary frame after installation. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0019] Figure 2 This is a schematic diagram of the pipeline structure of this utility model;

[0020] Figure 3 This is a schematic diagram of the slider structure of this utility model;

[0021] Figure 4 This is a schematic diagram of the insert structure of this utility model;

[0022] Figure 5 This is a schematic diagram of the main magnet structure of this utility model;

[0023] Figure 6 This is a schematic diagram of the auxiliary magnet structure of this utility model.

[0024] In the diagram: 1. Base plate; 2. Main frame; 3. Auxiliary frame; 4. Pipe; 5. Mounting block; 6. Protective plate; 7. Guide rod; 8. Connecting plate; 9. Spring; 10. Slip ring; 11. Side block; 12. Connecting rod; 13. Slider; 14. Moving plate; 15. Handle; 16. Main fin; 17. Auxiliary fin; 18. Insert block; 19. Main magnet; 20. Auxiliary magnet. Detailed Implementation

[0025] To enable those skilled in the art to understand the technical solution of this utility model more clearly, the present utility model will be further described in detail below with reference to the embodiments and accompanying drawings, but the implementation of this utility model is not limited thereto.

[0026] like Figures 1-6 As shown, the high-efficiency and energy-saving evaporator structure provided in this embodiment includes a base plate 1 and a main frame 2 installed on the base plate 1. A pipe 4 is installed on the main frame 2, a main fin 16 is installed on the pipe 4, and an auxiliary fin 17 is installed on the main fin 16. An auxiliary frame 3 is installed on the base plate 1, and a slider 13 is installed on the auxiliary frame 3. A sliding groove is provided on the base plate 1 to cooperate with the slider 13. The main fin 16 is installed on the side block 11, and the auxiliary fin 17 is installed on the main fin 16. By setting the slider 13 to slide in the sliding groove, the auxiliary frame 3 can be easily disassembled without the need for multiple workers to work together, making disassembly relatively convenient.

[0027] In this embodiment, as Figure 1 , Figure 2 , Figure 3 and Figure 4 As shown, slider 13 is a T-shaped slider, and the slide groove is a T-shaped slide groove. By setting slider 13 to be a T-shaped slider and T-shaped slide groove to cooperate with each other, it is easy to guide and limit the auxiliary frame 3. A guide assembly is installed on the auxiliary frame 3, a movable plate 14 is installed on the guide assembly, and an insert block 18 is installed on the movable plate 14. A slot is opened on the base plate 1 to cooperate with the insert block 18. By setting the insert block 18 to engage with the slot, it is easy to limit the installation of the auxiliary frame 3. The guide assembly includes a guide rod 7, a slip ring 10, a side block 11, and a connecting rod 12. The guide rod 7 is installed on the auxiliary frame 3, the slip ring 10 is slidably installed on the guide rod 7, the side block 11 is installed on the slip ring 10, and the side block 11 is installed on the side block 12. A connecting rod 12 is connected at one end to a movable plate 14. A guide rod 7 is slidably connected to a slip ring 10, which facilitates the guiding and limiting of the insert block 18. A connecting plate 8 is installed on the guide rod 7. The slip ring 10 is connected to the connecting plate 8 through a spring 9. When the movable plate 14 is pulled, the slip ring 10 slides on the guide rod 7, and the spring 9 shortens, causing the insert block 18 to slide out of the slot. The auxiliary frame 3 is then pulled to disassemble it. Disassembly is relatively convenient without the need for multiple workers to work together. A handle 15 is installed on the movable plate 14, and an anti-slip pad is installed on the handle 15. The handle 15 facilitates the pulling of the movable plate 14, and the anti-slip pad increases the friction of the handle 15.

[0028] In this embodiment, as Figure 1 , Figure 5 and Figure 6As shown, protective plates 6 are installed on the auxiliary frame 3 and the main frame 2. The protective plates 6 can be used to protect the pipe 4. Mounting blocks 5 are installed on the protective plates 6. Mounting slots that cooperate with the mounting blocks 5 are opened on the auxiliary frame 3 and the main frame 2. By setting the mounting blocks 5 to engage with the mounting slots, the protective plates 6 can be disassembled and replaced when they are damaged. A main magnet 19 is installed on the mounting blocks 5. Auxiliary magnets 20 that cooperate with the main magnet 19 are installed on both the main frame 2 and the auxiliary frame 3. By setting the main magnet 19 and the auxiliary magnet 20 to cooperate with each other, the installed protective plates 6 can be easily limited.

[0029] In this embodiment, as Figures 1-6 As shown in the figure, the working process of the high-efficiency and energy-saving evaporator structure provided in this embodiment is as follows:

[0030] Step 1: When it is necessary to disassemble the auxiliary frame 3, pull the moving plate 14, the slip ring 10 slides on the guide rod 7, the spring 9 shortens, the insert block 18 slides out of the slot, pull the auxiliary frame 3, the slider 13 slides in the slide groove, and the auxiliary frame 3 is disassembled.

[0031] Step 2: Pull the protective plate 6 to slide the mounting block 5 out of the mounting groove and replace the protective plate 6.

[0032] In summary, according to the high-efficiency energy-saving evaporator structure of this embodiment, by setting the slider 13 to slide in the groove, the auxiliary frame 3 can be easily disassembled without requiring multiple workers to work together, making disassembly relatively convenient. By setting the slider 13 to be a T-shaped slider and a T-shaped groove that cooperate with each other, the auxiliary frame 3 can be easily guided and limited. By setting the insert 18 to engage with the slot, the installed auxiliary frame 3 can be easily limited. By setting the guide rod 7 to slide in the slip ring 10, the insert 18 can be easily guided and limited. When the moving plate 14 is pulled, the slip ring 10 is on the guide rod. Slide 7 upwards, spring 9 shortens, slide the insert 18 out of the slot, pull the auxiliary frame 3 to disassemble the auxiliary frame 3. Disassembly is relatively convenient without the need for multiple workers to work together. The handle 15 makes it easy to pull the moving plate 14. The anti-slip pad increases the friction of the handle 15. The protective plate 6 protects the pipe 4. The mounting block 5 engages with the mounting groove, allowing the protective plate 6 to be disassembled and replaced if it is damaged. The main magnet 19 and the auxiliary magnet 20 work together to limit the position of the installed protective plate 6.

[0033] The above description is only a further embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the scope disclosed by the present utility model, based on the technical solution and concept of the present utility model, shall fall within the protection scope of the present utility model.

Claims

1. A high efficiency, energy saving evaporator structure, characterized by, The system includes a base plate (1) and a main frame (2) mounted on the base plate (1). A pipe (4) is mounted on the main frame (2). A main fin (16) is mounted on the pipe (4). An auxiliary fin (17) is mounted on the main fin (16). An auxiliary frame (3) is mounted on the base plate (1). A slider (13) is mounted on the auxiliary frame (3). A groove that cooperates with the slider (13) is provided on the base plate (1). A main fin (16) is mounted on the side block (11). An auxiliary fin (17) is mounted on the main fin (16).

2. The high-efficiency energy-saving evaporator structure according to claim 1, characterized in that, The slider (13) is a T-shaped slider, and the groove is a T-shaped groove.

3. The high-efficiency energy-saving evaporator structure according to claim 1, characterized in that, A guide assembly is installed on the auxiliary frame (3), a movable plate (14) is installed on the guide assembly, an insert (18) is installed on the movable plate (14), and a slot that cooperates with the insert (18) is provided on the base plate (1).

4. The high-efficiency energy-saving evaporator structure according to claim 3, characterized in that, The guiding assembly includes a guide rod (7), a slip ring (10), a side block (11), and a connecting rod (12). The guide rod (7) is mounted on the auxiliary frame (3). The slip ring (10) is slidably mounted on the guide rod (7). The side block (11) is mounted on the slip ring (10). The connecting rod (12) is mounted on the side block (11). One end of the connecting rod (12) is connected to the moving plate (14).

5. The high-efficiency energy-saving evaporator structure according to claim 4, characterized in that, A connecting plate (8) is installed on the guide rod (7), and the slip ring (10) is connected to the connecting plate (8) by a spring (9).

6. The high-efficiency energy-saving evaporator structure according to claim 5, characterized in that, A handle (15) is installed on the movable plate (14), and an anti-slip pad is installed on the handle (15).

7. The high-efficiency energy-saving evaporator structure according to claim 1, characterized in that, Protective plates (6) are installed on the auxiliary frame (3) and the main frame (2).

8. The high-efficiency energy-saving evaporator structure according to claim 7, characterized in that, The protective plate (6) is equipped with an installation block (5), and the auxiliary frame (3) and the main frame (2) are provided with installation grooves that cooperate with the installation block (5).

9. The high-efficiency energy-saving evaporator structure according to claim 8, characterized in that, The mounting block (5) is equipped with a main magnet (19), and the main frame (2) and the auxiliary frame (3) are each equipped with an auxiliary magnet (20) that cooperates with the main magnet (19).