Numerical control machining center for radiator core manufacturing
By improving the installation structure of the dustproof side plate and the design of the dehumidifying filter element in the CNC machining center, the problem of cumbersome disassembly of the dustproof side plate was solved, achieving convenient maintenance and internal drying.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ANHUI MILITARY AEROSPACE PRECISION EQUIPMENT CO LTD
- Filing Date
- 2025-07-08
- Publication Date
- 2026-06-23
AI Technical Summary
The existing CNC machining centers require multiple bolts to fix the dustproof side plates, which makes disassembly and maintenance cumbersome and inconvenient.
The design incorporates an installation frame, positioning block, limit plug, and movable plug rod. By sliding the pull block, the movable plug rod compresses the spring, allowing the limit plug to be separated and enabling convenient disassembly of the dustproof side panel. Simultaneously, through the cooperation of the sliding groove and the dehumidifying filter element, moisture in the air is adsorbed, ensuring that dry air enters the CNC machining center.
It enables quick disassembly and maintenance of the dustproof side panel, avoiding the cumbersome operation of tools, and keeps the inside of the CNC machining center dry through the dehumidifying filter element to prevent moisture from affecting the operation of parts.
Smart Images

Figure CN224390627U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the technical field of radiator core processing equipment, specifically relating to a CNC machining center for radiator core manufacturing. Background Technology
[0002] The radiator core is the key component in a radiator that enables heat exchange. It mainly consists of heat pipes, heat sinks, and manifolds.
[0003] During the manufacturing process of the radiator core, operators use CNC machining centers to process the radiator core workpiece. By programming the CNC machining center's machining program, every processing detail can be precisely controlled, thereby achieving high-precision and high-efficiency production. When using the CNC machining center, operators install dustproof side plates at the ventilation ports on both sides of the machining center to protect the ventilation ports. However, some CNC machining centers use multiple bolts to fix the dustproof side plates. This means that when operators need to disassemble and maintain the dustproof side plates, they need to use tools to remove multiple bolts, which is cumbersome and inconvenient for the maintenance of the CNC machining center.
[0004] Therefore, this utility model provides a CNC machining center for manufacturing radiator cores to solve the above problems. Utility Model Content
[0005] The purpose of this utility model is to provide a CNC machining center for manufacturing radiator cores, aiming to solve the problem that in the existing CNC machining centers, when installing dustproof side plates, operators use multiple bolts to fix the dustproof side plates. When the operators need to disassemble and maintain the dustproof side plates, they need to use tools to remove multiple bolts, which is a cumbersome operation and causes inconvenience to the maintenance of the CNC machining center.
[0006] To achieve the above objectives, this utility model provides the following technical solution: a CNC machining center for manufacturing radiator cores, comprising a CNC machining center body, with vents on both sides of the CNC machining center body, a mounting frame connected to one side surface of the CNC machining center body outside the vents, a placement groove on the side surface of the mounting frame away from the CNC machining center body, a dustproof side plate slidably placed inside the placement groove, four sets of positioning blocks symmetrically connected to both ends of the dustproof side plate, one end of each positioning block extending into the positioning groove, the positioning groove being opened on one side surface of the mounting frame, slots symmetrically opened on the front end surface of the mounting frame, a limit plug slidably connected inside the slot, a through hole penetrating one end of each limit plug, the through hole being opened through one end surface of the positioning block.
[0007] As a preferred embodiment of the CNC machining center for manufacturing radiator cores according to this utility model, a fixing hole is provided on the top surface of one end of the limiting plug, one end of a movable plug is slidably inserted into the fixing hole, and the other end of the movable plug is connected to a vertical block.
[0008] As a preferred embodiment of the CNC machining center for manufacturing radiator cores according to this utility model, the upright block is connected to one end surface of the inner side of the slide groove, the slide groove is symmetrically opened on one side surface of the mounting frame, and the upright block is provided with a spring through which a movable insert rod passes.
[0009] As a preferred embodiment of the CNC machining center for manufacturing radiator cores according to this utility model, one end of the pull block is connected to the inner surface of the slide groove, and the end surface of the pull block facing the upright block is connected to the movable insert rod. The pull block forms a sliding connection with the mounting frame through the slide groove.
[0010] As a preferred embodiment of the CNC machining center for manufacturing radiator cores according to this utility model, a sliding groove is also provided on the front surface of the mounting frame, and a dehumidifying filter element is slidably placed inside the sliding groove.
[0011] As a preferred embodiment of the CNC machining center for manufacturing radiator cores according to this utility model, the front end of the dehumidifying filter element is connected to two rubber blocks on both ends, one end of the rubber block is engaged in a slot, and the slot is formed on both ends of the inner side of the sliding groove.
[0012] Compared with the prior art, the beneficial effects of this utility model are:
[0013] This utility model, through the cooperation of the mounting frame, positioning block, limiting plug, and movable plug rod, allows operators to easily remove and maintain the dustproof side panel on the main body of the CNC machining center when needed. Simply push the pulling block to slide in the groove, causing the pulling block to compress the spring in the vertical block, allowing one end of the movable plug rod to separate from the fixing hole on the limiting plug. Then, the limiting plug can be pulled to separate from the slot on the positioning block, and the positioning block can then separate from the positioning groove. This allows operators to easily remove and maintain the dustproof side panel without tools, eliminating the need for tools and greatly simplifying the maintenance of the CNC machining center.
[0014] This invention utilizes the cooperation of a sliding groove, a dehumidifying filter element, a rubber clip, and a slot to install a dehumidifying filter element on the mounting frame. When air flows through the vent into the main body of the CNC machining center, the dehumidifying filter element in the mounting frame adsorbs the moisture in the air, ensuring that dry air enters the main body of the CNC machining center and preventing moisture from entering the main body of the CNC machining center and affecting the operation of the parts. Attached Figure Description
[0015] The accompanying drawings are provided to further illustrate 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, but do not constitute a limitation thereof. In the drawings:
[0016] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0017] Figure 2 This is a schematic diagram of the partial explosion structure of this utility model;
[0018] Figure 3 This is an exploded structural diagram of the mounting frame of this utility model;
[0019] Figure 4 This is a partial exploded cross-sectional view of the mounting frame of this utility model.
[0020] In the diagram: 1. Main body of CNC machining center; 2. Vent; 3. Mounting frame; 4. Placement slot; 5. Dustproof side plate; 6. Positioning block; 7. Positioning groove; 8. Slot; 9. Limiting block; 10. Through hole; 11. Fixing hole; 12. Movable insert rod; 13. Vertical block; 14. Slide groove; 15. Spring; 16. Pulling block; 17. Sliding groove; 18. Dehumidifying filter element; 19. Rubber clamp; 21. Slot. Detailed Implementation
[0021] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0022] Please see Figures 1-4 The present invention provides the following technical solution: a CNC machining center for manufacturing radiator cores, comprising a CNC machining center body 1, ventilation ports 2 on both sides of the CNC machining center body 1, a mounting frame 3 connected to one side of the CNC machining center body 1 outside the ventilation ports 2, a placement groove 4 on the side of the mounting frame 3 away from the CNC machining center body 1, a dustproof side plate 5 slidably placed inside the placement groove 4, four sets of positioning blocks 6 symmetrically connected to the two ends of the dustproof side plate 5, one end of the positioning block 6 extending into the positioning groove 7, the positioning groove 7 being opened on one side of the mounting frame 3, slots 8 symmetrically opened on the front end surface of the mounting frame 3, a limiting plug 9 slidably connected inside the slot 8, a through hole 10 penetrating one end of the limiting plug 9, the through hole 10 penetrating one end surface of the positioning block 6.
[0023] Preferably, a fixing hole 11 is provided on the top surface of one end of the limiting plug 9, and one end of the movable plug 12 is slidably inserted into the fixing hole 11, and the other end of the movable plug 12 is connected to the upright block 13.
[0024] In practical use, the dustproof side panel 5 is slid into the placement groove 4 on the mounting frame 3. At this time, the positioning block 6 on the dustproof side panel 5 will slide into the positioning groove 7. The position of the through hole 10 on the positioning block 6 will move to the slot 8. First, let the pulling block 16 drive the movable plug rod 12 to move, so that the movable plug rod 12 can squeeze the spring 15 in the upright block 13. At this time, one end of the movable plug rod 12 can retract into the mounting frame 3. Then, slide the limiting plug 9 into the slot 8. The limiting plug 9 will pass through the through hole 10 on the positioning block 6. Then release the pulling block 16. The spring 15 will push one end of the movable plug rod 12 through elasticity and insert it into the fixing hole 11 on the limiting plug 9, so that the position of the limiting plug 9 is fixed in the slot 8. At this time, the limiting plug 9 will fix the position of the positioning block 6 in the positioning groove 7, so that the dustproof side panel 5 can be installed on the mounting frame 3.
[0025] Preferably, the upright block 13 is connected to one end surface of the inner side of the slide groove 14, the slide groove 14 is symmetrically opened on one side surface of the mounting frame 3, and the upright block 13 is provided with a spring 15 that is penetrated by the movable insert rod 12.
[0026] In practical use, the movable rod 12 can slide in the upright block 13, so that the movable rod 12 can move elastically in the upright block 13 through the spring 15. When the movable rod 12 squeezes the spring 15, one end of the movable rod 12 can retract into the mounting frame 3. When the spring 15 pushes the movable rod 12 to move through elasticity, one end of the movable rod 12 can be inserted into the fixing hole 11 on the limiting block 9.
[0027] Preferably, one end of a pull block 16 is connected to the inner surface of the slide groove 14, and the end surface of the pull block 16 facing the upright block 13 is connected to the movable insert rod 12. The pull block 16 forms a sliding connection with the mounting frame 3 through the slide groove 14.
[0028] In actual use, the pull block 16 can slide in the slide groove 14 on the mounting frame 3. When the pull block 16 moves, the pull block 16 will move in the upright block 13 along with the movable plug rod 12.
[0029] Preferably, the front surface of the mounting frame 3 is also provided with a sliding groove 17, and a dehumidifying filter element 18 is slidably placed inside the sliding groove 17.
[0030] In practical use, the dehumidifying filter element 18 can slide in the sliding groove 17, allowing the dehumidifying filter element 18 to slide and pull on the mounting frame 3 through the sliding groove 17. The dehumidifying filter element 18 can be customized to be processed into the required shape and size for use.
[0031] Preferably, the front end of the dehumidifying filter element 18 is connected to two rubber blocks 19, one end of the rubber blocks 19 is engaged in the slot 21, and the slot 21 is opened on the inner two ends of the sliding groove 17.
[0032] In practical use, when the dehumidifying filter element 18 is slidably placed into the sliding groove 17, the dehumidifying filter element 18 will move with the rubber clip 19 to the slot 21, so that the rubber clip 19 is elastically engaged in the slot 21, thus fixing the position of the dehumidifying filter element 18 in the sliding groove 17. By pulling the dehumidifying filter element 18, the rubber clip 19 can be separated from the slot 21, so that the dehumidifying filter element 18 can be disassembled.
[0033] It should be noted that the main body 1 of the CNC machining center is a TX-T6 vertical CNC machining center. The dustproof side plate 5 has a dustproof net embedded on the side facing the mounting frame 3. Therefore, after the dustproof side plate 5 is installed, it can cover the vent 2 for protection. The vent 2 can transport the heat generated inside the main body 1 of the CNC machining center to ensure the air circulation inside the main body 1 of the CNC machining center.
[0034] Working principle: When using this CNC machining center for radiator core manufacturing, the design drawings of the radiator core workpiece are imported into the CNC system of the main body 1 of the CNC machining center. Then, using CNC programming software, based on the process route and selected tools and cutting parameters, a machining program that the main body 1 of the CNC machining center can recognize is written. The program must include instructions such as tool movement trajectory, cutting speed, feed rate, and spindle speed to precisely control the machining process. At this time, the radiator core workpiece is clamped on the fixture in the main body 1 of the CNC machining center, and the machining is performed manually or using a tool setter. Using tools, the relative position between the cutting tool and the radiator core workpiece is determined, providing an accurate starting position for machining. Then, the CNC machining center body 1 is started, and the cutting tool in the CNC machining center body 1 can perform machining operations on the radiator core workpiece according to the set program. When the dustproof side plate 5 installed at the vent 2 needs to be disassembled for maintenance, the operator only needs to push the pull block 16 to slide in the slide groove 14. At this time, the pull block 16 will drive the movable insert rod 12 to compress the spring 15 in the upright block 13, so that one end of the movable insert rod 12 can separate from the fixed end on the limit insert block 9. In hole 11, pull the limiting block 9 again to allow it to move within slot 8. One end of the limiting block 9 can then separate from the through hole 10 on the positioning block 6. The positioning block 6 is no longer restricted by the limiting block 9, allowing it to separate from the positioning groove 7. This allows operators to easily remove the dustproof side plate 5 from the placement groove 4 on the mounting frame 3 for maintenance without tools, avoiding the need for tools and facilitating maintenance of the CNC machining center body 1. Next, the dehumidifying filter element 1... 8. The dehumidifying filter element 18 is slidably placed into the sliding groove 17 on the mounting frame 3. The dehumidifying filter element 18 will move to the slot 21 along with the rubber clip 19, so that the rubber clip 19 is elastically engaged in the slot 21. At this time, the position of the dehumidifying filter element 18 will be fixed in the sliding groove 17 on the mounting frame 3. In this way, when the air flowing through the vent 2 enters the CNC machining center body 1, the dehumidifying filter element 18 in the mounting frame 3 can adsorb the moisture in the air, ensuring that dry air enters the CNC machining center body 1 and preventing moisture from entering the CNC machining center body 1 and affecting the operation of the parts.
[0035] Finally, it should be noted that the above are merely preferred embodiments of this utility model and are not intended to limit the utility model. Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.
Claims
1. A CNC machining center for manufacturing radiator cores, comprising a CNC machining center body (1), characterized in that: The CNC machining center body (1) has ventilation ports (2) on both sides. A mounting frame (3) is connected to one side of the CNC machining center body (1) outside the ventilation port (2). A placement groove (4) is opened on the side of the mounting frame (3) away from the CNC machining center body (1). A dustproof side plate (5) is slidably placed inside the placement groove (4). Four sets of positioning blocks (6) are symmetrically connected to the two ends of the dustproof side plate (5). One end of the positioning block (6) extends into the positioning groove (7). The positioning groove (7) is opened on one side of the mounting frame (3). A slot (8) is symmetrically opened on the front end of the mounting frame (3). A limit plug (9) is slidably connected inside the slot (8). A through hole (10) is connected through one end of the limit plug (9). The through hole (10) is opened through one end of the positioning block (6).
2. The CNC machining center for manufacturing a radiator core according to claim 1, characterized in that: A fixing hole (11) is provided on the top surface of one end of the limiting plug (9). One end of the movable plug (12) is slidably inserted into the fixing hole (11), and the other end of the movable plug (12) is connected to the upright block (13).
3. The CNC machining center for manufacturing a radiator core according to claim 2, characterized in that: The upright block (13) is connected to one end surface of the inner side of the slide groove (14). The slide groove (14) is symmetrically opened on one side surface of the mounting frame (3). The upright block (13) is provided with a spring (15) that is penetrated by the movable insert rod (12).
4. A CNC machining center for manufacturing a radiator core according to claim 3, characterized in that: The inner surface of the slide groove (14) is connected to one end of the pull block (16), and the surface of the pull block (16) facing the upright block (13) is connected to the movable insert rod (12). The pull block (16) forms a sliding connection with the mounting frame (3) through the slide groove (14).
5. A CNC machining center for manufacturing a radiator core according to claim 1, characterized in that: The front surface of the mounting frame (3) is also provided with a sliding groove (17), and a dehumidifying filter element (18) is slidably placed inside the sliding groove (17).
6. A CNC machining center for manufacturing a radiator core according to claim 5, characterized in that: The front end of the dehumidifying filter element (18) is connected to two rubber blocks (19) on both ends. One end of the rubber block (19) is engaged in the slot (21), which is located on both ends of the inner side of the sliding groove (17).