A cooling device capable of automatic discharging
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN YATAIXING IND
- Filing Date
- 2025-07-30
- Publication Date
- 2026-06-05
AI Technical Summary
Lighter materials are easily blown by the wind on the conveyor belt, causing them to shift in position or even fall off, interrupting the production process and potentially becoming contaminated.
A protective cover is installed above the conveyor belt and fixed by a fixing mechanism and a limiting mechanism to prevent material deviation. The ventilation openings on the protective cover are used for cooling.
It effectively prevents materials from shifting or falling during the conveying process, reduces the defect rate, and ensures the continuity of the production process and the cleanliness of the materials.
Smart Images

Figure CN224324568U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of cooling device technology, and in particular to a cooling device with automatic feeding capability. Background Technology
[0002] Automatic material feeding cooling devices are automated equipment used for material cooling in industrial production. Their core function is to achieve fully automated operation of the material from cooling to feeding through the cooperation of mechanized transmission and cooling components. They have the following structure.
[0003] 1. Frame: As the basic support structure of the cooling device, it bears the weight and external forces of the entire device during operation;
[0004] 2. Conveyor belt: It carries and transports materials, and realizes the automatic transfer of materials from the feeding end to the unloading end through continuous operation. It is the core transmission component for realizing automatic unloading.
[0005] 3. Fan: The fan drives the impeller to rotate through the motor to generate airflow, which is then guided through the air duct and blown evenly onto the material on the conveyor belt. The forced convection removes the heat from the material, achieving a cooling effect.
[0006] Due to the wind force generated by the fan, when materials are placed on the conveyor belt for cooling, heavier materials are less affected by the wind force and can move relatively stably with the conveyor belt. However, lighter materials are easily blown away by the wind force, causing them to shift their position on the conveyor belt or even fall off. Once the materials fall off, it will not only interrupt the normal production process, but may also be contaminated by contact with the ground or other parts of the equipment. Utility Model Content
[0007] To address the shortcomings of existing technologies, this utility model provides a cooling device that can automatically unload materials. This solves the technical problem that lighter materials are easily blown by wind, causing them to shift position on the conveyor belt or even fall off. Once the materials fall off, not only will the normal production process be interrupted, but they may also be contaminated due to contact with the ground or other parts of the equipment.
[0008] To achieve the above objectives, this utility model provides the following technical solution:
[0009] An automatic material feeding cooling device includes a frame and a conveyor belt. A protective cover is provided above the conveyor belt to prevent material deviation. Several ventilation openings are provided on the outside of the protective cover. The frame is provided with fixing mechanisms for fixing the protective cover at both ends. Each fixing mechanism includes a positioning frame, a positioning block, a threaded hole, and a screw. The positioning frame is fixedly installed on the outside of the frame. The positioning block is slidably connected to the inside of the positioning frame. The threaded hole is opened on the upper surface of the positioning block and communicates with the inside of the positioning frame. The screw is threadedly connected to the inside of the threaded hole and is used to fix the position of the positioning block. The protective cover has a positioning hole on one side corresponding to each positioning block. The end of the positioning block is slidably connected to the inside of the positioning hole.
[0010] Preferably, two limit blocks are fixedly installed at the end of the protective cover away from the positioning hole.
[0011] Preferably, a limiting mechanism for restricting the rotation of the screw is provided above the protective cover. The limiting mechanism includes a socket and a plate. There are two sockets, which are respectively opened at the upper ends of the two screws. The two ends of the plate are slidably connected to the inside of the two sockets.
[0012] Preferably, the insert plate has a spring block on its exterior for limiting the movement of the insert plate, a moving groove is provided on the side of the insert plate corresponding to the spring block, the spring block is slidably connected inside the moving groove, a spring for supporting the spring block is fixedly connected inside the moving groove, a through hole is provided on the side of the insert plate corresponding to the moving groove, a slider is slidably connected inside the through hole, the slider is fixedly installed on the exterior of the spring block and is used to limit the movement range of the spring block.
[0013] Preferably, a storage rack is fixedly installed on the outside of the frame, and an operating handle is slidably connected to the inside of the storage rack.
[0014] Compared with the prior art, the present invention has the following beneficial effects:
[0015] 1. Slide the protective cover into the area below the fan, push the positioning block into the positioning hole, and then tighten the screw to increase the friction between the positioning block and the positioning frame, thereby fixing the position of the positioning block and fixing the protective cover on the frame. The material is placed on the conveyor belt and moved by it. During the conveying process, the protective cover can prevent the material from shifting and falling during the conveying process, avoid material contamination, reduce the defect rate caused by material contamination, and avoid downtime caused by material falling, thus ensuring a normal production process.
[0016] 2. After the screw is fixed in place with the positioning block, press the spring block to make it enter the interior of the moving groove. At this time, the spring is compressed. Then, insert both ends of the insert plate into the insertion holes at the top of the two screws respectively. After that, the spring block moves and resets under the action of the spring. At this time, the insert plate is restricted from moving by the spring block. The insertion plate restricts the rotation of the screw and prevents the screw from loosening due to vibration or other reasons during the operation of the device, thereby ensuring the stability of the protective cover. Attached Figure Description
[0017] The above description is only an overview of the technical solution of this utility model. In order to better understand the technical means of this utility model and to implement it in accordance with the contents of the specification, the preferred embodiments of this utility model are described in detail below with reference to the accompanying drawings.
[0018] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0019] Figure 2 This utility model Figure 1 Structural diagram of the central protective shield;
[0020] Figure 3 This utility model Figure 1 Enlarged structural diagram at point A in the middle;
[0021] Figure 4 This utility model Figure 2 Enlarged structural diagram at point B in the middle.
[0022] Legend: 1. Frame; 2. Conveyor belt; 3. Protective cover; 4. Positioning frame; 5. Positioning block; 6. Threaded hole; 7. Screw; 8. Positioning hole; 9. Limiting block; 10. Insertion hole; 11. Insert plate; 12. Spring block; 13. Moving slot; 14. Spring; 15. Through hole; 16. Slider; 17. Storage rack; 18. Operating handle; 19. Ventilation opening. Detailed Implementation
[0023] This application provides an automatic material feeding cooling device, which effectively solves the technical problem that light materials are easily blown by wind, causing them to shift position or even fall off the conveyor belt. Once the material falls, it will not only interrupt the normal production process, but may also be contaminated by contact with the ground or other parts of the equipment.
[0024] Example
[0025] like Figure 1 , Figure 2 , Figure 3 and Figure 4As shown, the technical solution in this application embodiment effectively solves the problem that lightweight materials are easily blown by wind, causing them to shift position or even fall off the conveyor belt. Once the material falls, it will not only interrupt the normal production process, but may also be contaminated due to contact with the ground or other parts of the equipment. The overall idea is as follows:
[0026] To address the problems existing in the prior art, this utility model provides an automatic material feeding cooling device, including a frame 1 and a conveyor belt 2. A protective cover 3 is provided above the conveyor belt 2 to prevent material deviation. The lower surface of the protective cover 3 does not contact the surface of the conveyor belt 2 and is suspended above the conveyor belt 2. Several ventilation openings 19 are provided on the outside of the protective cover 3. The frame 1 is provided with fixing mechanisms for fixing the protective cover 3 at both ends. Each fixing mechanism includes a positioning frame 4, a positioning block 5, a threaded hole 6, and a screw 7. The positioning frame 4 is fixedly installed on the outside of the frame 1. The positioning block 5 is slidably connected to the inside of the positioning frame 4. The threaded hole 6 is opened on the upper surface of the positioning block 5 and communicates with the inside of the positioning frame 4. The screw 7 is threadedly connected to the inside of the threaded hole 6 and is used to fix the position of the positioning block 5. The protective cover 3 is provided with a positioning hole 8 on one side corresponding to each positioning block 5. The end of the positioning block 5 is slidably connected to the inside of the positioning hole 8 and is used to fix the protective cover 3.
[0027] The protective cover 3 prevents materials from shifting or spilling during the conveying process. Its surface ventilation openings 19 can introduce outside air to exchange heat with the materials and assist in cooling. The positioning frame 4 provides a sliding track for the positioning block 5. The positioning block 5 is slidably connected to the inside of the positioning frame 4 and inserted into the positioning hole 8 of the protective cover 3 to achieve the initial positioning of the protective cover 3. The screw 7 is screwed in through the threaded hole 6 and abuts against the positioning block 5. The position of the positioning block 5 is fixed by the friction of the threads, thereby firmly installing the protective cover 3 on the frame 1. The fixing mechanism facilitates the quick installation and removal of the protective cover 3 and facilitates equipment maintenance and repair.
[0028] Two limiting blocks 9 are fixedly installed at the end of the protective cover 3 away from the positioning hole 8. When the protective cover 3 is not fixed by the fixing mechanism, the limiting blocks 9 fit against the surface of the frame 1 to limit the position of the protective cover 3, so as to avoid the need for the operator to lift the protective cover 3 upward when it is fixed by the fixing mechanism, thus reducing the labor intensity of the operator.
[0029] A limiting mechanism for restricting the rotation of the screw 7 is provided above the protective cover 3. The limiting mechanism includes a socket 10 and a plate 11. There are two sockets 10, which are respectively opened at the upper ends of the two screws 7. The two ends of the plate 11 are slidably connected to the inside of the two sockets 10. The plate 11 is inserted into the socket 10 at the upper end of the screw 7 to restrict the rotation of the screw 7 and prevent it from loosening due to vibration.
[0030] The outside of the insert plate 11 is provided with a spring block 12 for limiting the movement of the insert plate 11. A moving groove 13 is provided on the side of the insert plate 11 corresponding to the spring block 12. The spring block 12 is slidably connected inside the moving groove 13. A spring 14 for supporting the spring block 12 is fixedly connected inside the moving groove 13. The spring block 12 restricts the movement of the insert plate 11 under the support of the spring 14.
[0031] The insert plate 11 has a through hole 15 on one side corresponding to the moving groove 13. A slider 16 is slidably connected inside the through hole 15. The slider 16 is fixedly installed on the outside of the spring block 12 and is used to limit the movement range of the spring block 12, preventing the spring block 12 from completely leaving the moving groove 13 and losing its limiting effect on the insert plate 11.
[0032] A storage rack 17 is fixedly installed on the outside of the frame 1. An operating handle 18 is slidably connected to the inside of the storage rack 17. The operating handle 18 is T-shaped and is used to turn the screw 7, that is, to insert it into the socket 10 to rotate the screw 7. The storage rack 17 provides storage space for the operating handle 18 to prevent the tool from being lost, and it can be quickly retrieved when in use.
[0033] Working principle:
[0034] First, slide the protective cover 3 into the area below the fan. At this time, the limiting blocks 9 at both ends of the protective cover 3 are attached to the two ends of the frame 1 to restrict the position of the protective cover 3. Then, continue to push the protective cover 3 until the positioning hole 8 moves to the positioning block 5. Then push the positioning block 5 to enter the interior of the positioning hole 8. Then screw the screw 7 into the threaded hole 6. The end of the screw 7 abuts against the surface of the positioning block 5. By tightening the screw 7, the friction between the positioning block 5 and the positioning frame 4 is increased, thereby fixing the position of the positioning block 5 and fixing the protective cover 3 on the frame 1. After the conveyor belt 2 is started, the material placed on the conveyor belt 2 is driven to move. During the conveying process, the air generated by the fan enters through the ventilation port 19 outside the protective cover 3 and exchanges heat with the material to cool the material. At the same time, the protective cover 3 can prevent the material from shifting during the conveying process, ensuring that the material is stably conveyed along the conveyor belt 2 to the discharge port to complete the automatic discharge.
[0035] The second step is to press the spring block 12 after the screw 7 is fixed to the positioning block 5, so that the spring block 12 enters the interior of the moving groove 13. At this time, the spring 14 is compressed. Then, insert the two ends of the insert plate 11 into the insertion holes 10 at the upper ends of the two screws 7 respectively. The insert plate 11 restricts the rotation of the screw 7 and prevents the screw 7 from loosening due to vibration or other reasons during the operation of the device. Then, the spring block 12 moves and resets under the action of the spring 14. At this time, the insert plate 11 is restricted from moving by the spring block 12.
[0036] Finally, it should be noted that the above embodiments are merely examples for clearly illustrating the present invention and are not intended to limit the implementation. Those skilled in the art can make other variations or modifications based on the above description. It is neither necessary nor possible to exhaustively list all possible implementations. However, obvious variations or modifications derived therefrom are still within the protection scope of this invention.
Claims
1. A cooling device capable of automatic material feeding, comprising a frame (1) and a conveyor belt (2), characterized in that, The conveyor belt (2) is provided with a protective cover (3) to prevent material deviation. The protective cover (3) has several ventilation openings (19) on its exterior. The frame (1) is provided with fixing mechanisms for fixing the protective cover (3) at both ends of the protective cover (3). Each fixing mechanism includes a positioning frame (4), a positioning block (5), a threaded hole (6), and a screw (7). The positioning frame (4) is fixedly installed on the outside of the frame (1). The positioning block (5) is slidably connected to the inside of the positioning frame (4). The threaded hole (6) is opened on the upper surface of the positioning block (5). The threaded hole (6) communicates with the inside of the positioning frame (4). The screw (7) is threadedly connected to the inside of the threaded hole (6) and used to fix the position of the positioning block (5). The protective cover (3) has a positioning hole (8) on one side of each positioning block (5). The end of the positioning block (5) is slidably connected to the inside of the positioning hole (8).
2. The cooling device with automatic material feeding as described in claim 1, characterized in that, Two limiting blocks (9) are fixedly installed at the end of the protective cover (3) away from the positioning hole (8).
3. The cooling device with automatic material feeding as described in claim 1, characterized in that, The protective cover (3) is provided with a limiting mechanism for restricting the rotation of the screw (7) above it. The limiting mechanism includes a socket (10) and a plate (11). There are two sockets (10), which are respectively opened at the upper ends of the two screws (7), and the two ends of the plug plate (11) are slidably connected to the inside of the two sockets (10).
4. The cooling device with automatic feeding capability as described in claim 3, characterized in that, The outside of the insert plate (11) is provided with a spring block (12) for restricting the movement of the insert plate (11).
5. The cooling device with automatic material feeding as described in claim 4, characterized in that, The insert plate (11) has a moving groove (13) on one side corresponding to the spring block (12); The spring block (12) is slidably connected inside the moving groove (13).
6. The cooling device with automatic feeding capability as described in claim 5, characterized in that, The movable groove (13) is internally fixedly connected to a spring (14) for supporting the spring block (12).
7. The cooling device with automatic feeding capability as described in claim 5, characterized in that, The insert plate (11) has a through hole (15) on one side corresponding to the moving groove (13), and a slider (16) is slidably connected inside the through hole (15); The slider (16) is fixedly installed on the outside of the spring block (12) and is used to limit the movement range of the spring block (12).
8. The cooling device with automatic feeding capability as described in claim 1, characterized in that, A storage rack (17) is fixedly installed on the outside of the frame (1), and an operating handle (18) is slidably connected to the inside of the storage rack (17).