A cooling device for the edge covering of a glass pot cover
By combining motor-driven fan blades and a semiconductor cooling cover, efficient cooling of the silicone ring is achieved, solving the problem of slow cooling after the silicone ring is formed, and improving production efficiency and operational safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- WUYI COUNTY BAOXING TOUGHENED GLASS CO LTD
- Filing Date
- 2025-06-16
- Publication Date
- 2026-06-23
AI Technical Summary
The slow cooling of silicone rings after molding at high temperatures affects production efficiency and makes operation inconvenient.
The fan blades are driven by an electric motor to generate a high-speed airflow, and a low-temperature airflow is formed by actively absorbing heat through a semiconductor cooling cover. The airflow is then sprayed vertically onto the surface of the silicone ring for efficient cooling.
It shortens the cooling time of the silicone ring, improves production efficiency, simplifies the operation process, and reduces safety risks to operators.
Smart Images

Figure CN224391695U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a cooling device, and more particularly to a cooling device for wrapping the edge of a silicone glass pot lid. Background Technology
[0002] Glass pot lids are widely used in the cookware industry due to their transparency, corrosion resistance, and odorlessness. To improve safety and sealing, a ring-shaped silicone sealant is typically used around the outer edge of the glass. This silicone sealant serves multiple functions, including cushioning against impacts, enhancing the lid's seal, and providing heat insulation and protection against burns. A tight fit between the silicone sealant and the glass edge is crucial for ensuring product performance, requiring extremely high precision in molding and assembly.
[0003] Currently, silicone ring manufacturing mainly relies on mold hot pressing equipment: strips of silicone raw material are placed in a high-temperature mold cavity, heated and melted into a flowing state, and then pressurized to fill the mold cavity and solidify. This process requires feeding, mold closing, heating and vulcanization, pressure molding, and mold opening and part removal. The molded silicone ring remains at a high temperature.
[0004] However, high-temperature molded parts need to cool for several minutes to more than ten minutes before they can be operated, which seriously restricts the production line rhythm. Moreover, the silicone rings need to be manually stretched and fitted into the outer ring of the glass pot lid by workers. This process requires precise operation to align the position. Operators cannot wear heavy heat-resistant gloves and cannot immediately pick up the silicone rings for installation. Utility Model Content
[0005] The technical problem to be solved by this invention is slow cooling. It provides a cooling device for wrapping the edge of a silicone glass pot lid, aiming to solve the above problem.
[0006] The technical solution adopted by this utility model to solve the above-mentioned technical problems is as follows: a cooling device for edging silicone glass pot lids, including a molding machine, a conveyor frame, a placement plate, an electric slide rail, a connecting plate, a mounting plate, a motor, a fan blade, a controller, and an air control component. A conveyor frame is installed on the front side of the molding machine, and a placement plate is slidably connected in the middle of the conveyor frame. A power component for driving the placement plate to move back and forth is provided inside the conveyor frame. Electric slide rails are installed on both the left and right sides of the conveyor frame. The connecting plate is slidably connected to the left and right sides of the conveyor frame. The electric slide rails are used to drive the connecting plate to move back and forth. A mounting plate is provided between the two connecting plates. A motor and a fan blade are installed on the mounting plate. The output shaft of the motor is connected to the fan blade. A controller is installed on the front side of the conveyor frame. The controller is wired to the motor. An air control component for controlling the up and down sliding of the mounting plate is provided on the connecting plate.
[0007] A further preferred embodiment of this utility model is as follows: the air control assembly includes a fixed frame, a guide frame, a guide rod, and a return spring. The fixed frame is connected between the front end of the conveyor frame and the front side of the molding machine. The guide frame is connected to the bottom of the fixed frame. The guide frame is slidably connected to the mounting plate. Both ends of the mounting plate pass through the connecting plate, and both ends of the mounting plate are slidably connected to the connecting plate. The guide rod is connected in the sliding groove of the connecting plate for sliding at both ends of the mounting plate. A return spring is sleeved on the guide rod. The top of the return spring is connected to the mounting plate, and the bottom of the return spring is connected to the connecting plate.
[0008] A further preferred embodiment of this utility model is: it also includes a filter screen, and the top and bottom surfaces of the mounting plate are both connected to the filter screen.
[0009] A further preferred embodiment of this utility model is: it also includes a semiconductor cooling cover, the top of the mounting plate is connected to the semiconductor cooling cover, and the semiconductor cooling cover covers the top area of the fan blade.
[0010] A further preferred embodiment of this utility model is: it also includes a warning light, which is mounted on the mounting plate and is wired to the controller.
[0011] A further preferred embodiment of this utility model is: it also includes rollers, and rollers are rotatably connected at the left and right ends of the mounting plate where they contact the guide frame.
[0012] A further preferred embodiment of this utility model is: it also includes an anti-accidental touch ring, the controller is provided with several buttons, several anti-accidental touch rings are connected to the controller, and the anti-accidental touch rings are fitted over each button.
[0013] A further preferred embodiment of this utility model is: it also includes a cover plate, and the cover plate is connected to the side of the connecting plate. The cover plate encloses the motion cavity of the guide rod and the reset spring inside the connecting plate.
[0014] Compared with the prior art, the advantages of this utility model are: the fan blades are driven by a motor to generate a high-speed airflow, and the thermoelectric conversion module of the semiconductor cooling cover actively absorbs heat to form a low-temperature airflow that is vertically sprayed onto the surface of the silicone ring, thereby achieving efficient cooling and shortening the natural cooling waiting time. Attached Figure Description
[0015] The present invention will be further described in detail below with reference to the accompanying drawings and preferred embodiments. However, those skilled in the art will understand that these drawings are drawn only for the purpose of explaining the preferred embodiments and therefore should not be construed as limiting the scope of the present invention. Furthermore, unless specifically indicated, the drawings are only schematic representations of the composition or structure of the described objects and may contain exaggerated depictions, and the drawings are not necessarily drawn to scale.
[0016] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0017] Figure 2 This is a cross-sectional view of the mounting structure of the first motor and turntable of this utility model;
[0018] Figure 3 This is an exploded view showing the connection relationship between the connecting block and the push plate of this utility model.
[0019] Figure 4 This is an exploded view of the installation structure of the placement box and baffle of this utility model;
[0020] Figure 5 This is a cross-sectional view showing the connection relationship between the rack and the one-way gear of this utility model.
[0021] In the diagram: 1. Molding machine, 2. Conveyor frame, 3. Placement plate, 4. Electric slide rail, 5. Connecting plate, 6. Mounting plate, 7. Motor, 8. Fan blade, 9. Controller, 10. Fixing frame, 11. Guide frame, 12. Guide rod, 13. Return spring, 14. Filter screen, 15. Semiconductor cooling cover, 16. Warning light, 17. Roller, 18. Anti-accidental touch ring, 19. Cover plate. Detailed Implementation
[0022] The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings. Those skilled in the art will appreciate that these descriptions are merely descriptive and exemplary and should not be construed as limiting the scope of protection of the present invention.
[0023] It should be noted that similar labels in the following figures indicate similar items; therefore, once an item is defined in one figure, it may not be further defined and explained in subsequent figures.
[0024] This embodiment mainly describes the structure of the cooling device, as follows:
[0025] A cooling device for sealing the rim of a silicone glass pot lid, such as Figures 1-5 As shown, the assembly includes a molding machine 1, a conveyor frame 2, a placement plate 3, an electric slide rail 4, a connecting plate 5, a mounting plate 6, a motor 7, a fan blade 8, a controller 9, and an air control component. The molding machine 1 has a conveyor frame 2 installed on its front side, with a placement plate 3 slidably connected to the middle of the conveyor frame 2. The conveyor frame 2 is equipped with a power component for driving the placement plate 3 to move back and forth. Electric slide rails 4 are installed on both the left and right sides of the conveyor frame 2. The connecting plates 5 are slidably connected to the left and right sides of the conveyor frame 2, and the electric slide rails 4 are used to drive the connecting plates 5 to move back and forth. A mounting plate 6 is provided between the two connecting plates 5. The mounting plate 6 is equipped with a motor 7 and a fan blade 8. The output shaft of the motor 7 is connected to the fan blade 8. A controller 9 is installed on the front side of the conveyor frame 2, and the controller 9 is wiredly connected to the motor 7. The connecting plate 5 is equipped with an air control component for controlling the up and down sliding of the mounting plate 6.
[0026] like Figure 3 and Figure 4 As shown, the air control assembly includes a fixed frame 10, a guide frame 11, a guide rod 12, and a return spring 13. The fixed frame 10 is connected between the front end of the conveyor frame 2 and the front side of the molding machine 1. The guide frame 11 is connected to the bottom of the fixed frame 10. The guide frame 11 is slidably connected to the mounting plate 6. Both ends of the mounting plate 6 pass through the connecting plate 5, and both ends of the mounting plate 6 are slidably connected to the connecting plate 5. The guide rod 12 is connected in the sliding groove of the connecting plate 5 for the sliding of both ends of the mounting plate 6. The return spring 13 is sleeved on the guide rod 12. The top of the return spring 13 is connected to the mounting plate 6, and the bottom of the return spring 13 is connected to the connecting plate 5.
[0027] like Figure 2 As shown, it also includes a filter screen 14. The top and bottom surfaces of the mounting plate 6 are both connected to the filter screen 14. When the fan blade 8 is running, the filter screen 14 forms a bidirectional airflow filtration barrier, effectively intercepting silicone debris, dust and molten splashes.
[0028] like Figure 1 As shown, it also includes a semiconductor cooling cover 15. The top of the mounting plate 6 is connected to the semiconductor cooling cover 15, which covers the top area of the fan blade 8. It actively absorbs heat through the Peltier effect, and achieves efficient temperature drop when the airflow passes through the finned heat exchange channel.
[0029] like Figure 1 As shown, it also includes a warning light 16. The warning light 16 is installed on the mounting plate 6 and is wired to the controller 9. The flashing mode is differentiated to indicate the motion status.
[0030] like Figure 4 As shown, it also includes rollers 17, and rollers 17 are rotatably connected at the left and right ends of the mounting plate 6 where they contact the guide frame 11.
[0031] like Figure 3 As shown, it also includes an anti-accidental touch ring 18. Several buttons are set on the controller 9, and several anti-accidental touch rings 18 are connected to the controller 9. The anti-accidental touch ring 18 is fitted to each button, and the trigger rate is reduced to 0.1% in the case of accidental hand pressure. It guides the operator to apply vertical force with their fingertips and increases the button life by 3 times.
[0032] like Figure 1 As shown, it also includes a cover plate 19. The side of the connecting plate 5 is connected to the cover plate 19. The cover plate 19 encloses the motion cavity of the guide rod 12 and the reset spring 13 inside the connecting plate 5, forming a fully enclosed cavity to wrap the motion trajectory of the reset spring 13, preventing the spring from getting stuck due to silicone debris and lubricating oil contamination.
[0033] The staff places the silicone strip into the groove of the placement plate 3, placing it in a ring around the outer edge. Then, the controller 9 starts the molding machine 1 and the conveyor frame 2. The conveyor frame 2 drives the placement plate 3 to move backward, while the electric slide rail 4 drives the connecting plate 5 to move backward. The placement plate 3 moves backward and enters the molding machine 1 to undergo the heating, melting, and extrusion shaping process. When the connecting plate 5 and the mounting plate 6 move backward, the rollers 17 connected to the left and right ends of the mounting plate 6 come into contact with the bottom surface of the guide frame 11. Since the guide frame 11 extends backward and downward at a 30° angle, the rollers 17 of the mounting plate 6 are squeezed downward by its inclined surface, compressing the return spring 13. The rollers 17 change from sliding friction to rolling friction. When the electric slide rail 4 drives the connecting plate 5 to the last end, the top surface of the mounting plate 6 is in complete contact with the bottom surface of the guide frame 11. After the shape of the rubber ring is fixed, the placement plate 3 moves forward. After the placement plate 3 leaves the molding machine 1, the electric slide rail 4 drives the connecting plate 5 to move synchronously with the placement plate 3, so that the mounting plate 6 is always located on top of the placement plate 3. At the same time as the electric slide rail 4 drives the connecting plate 5 to move forward, the controller 9 starts the motor 7. The motor 7 drives the fan blade 8 to rotate at high speed. The airflow is rapidly cooled after passing through the semiconductor cooling cover 15, so that the gas, which is much lower than the room temperature, is blown onto the silicone ring on the placement plate 3 to accelerate its cooling. When the placement plate 3 moves forward, the return spring 13 releases its elastic force to push the mounting plate 6 to slide upward, ensuring that the mounting plate 6 is in contact with the bottom surface of the guide frame 11. Then, the mounting plate 6 slides upward along the inclined surface of the guide frame 11, increasing the distance with the placement plate 3. Finally, the mounting plate 6 completely separates from the guide frame 11. At this time, the mounting plate 6 is far away from the placement plate 3, making it convenient for the staff to remove the silicone ring.
[0034] The filter 14 provides bidirectional protection for the fan blades 8; the cover 19 provides a sealed protection for the return spring 13. Moving the mounting plate 6 forward triggers the warning light 16 to illuminate, alerting the operator. All buttons on the controller 9 are equipped with anti-accidental trigger rings 18; their raised structure blocks large-area contact, allowing only vertical pressing of a single button, thus effectively preventing accidental triggering.
[0035] In the description of this utility model, it should be noted that the terms "upper", "lower", "front", "rear", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, or the orientation or positional relationship that the utility model product is usually placed in during use. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.
[0036] The cooling device for edging a silicone glass pot lid provided by this utility model has been described in detail above. Specific examples have been used to illustrate the principle and implementation of this utility model. The descriptions of the above embodiments are only for the purpose of helping to understand this utility model and its core ideas. It should be noted that those skilled in the art can make several improvements and modifications to this utility model without departing from its principle, and these improvements and modifications also fall within the protection scope of the claims of this utility model.
Claims
1. A cooling device for sealing the rim of a silicone glass pot lid, characterized in that: The assembly includes a molding machine (1), a conveyor frame (2), a placement plate (3), an electric slide rail (4), a connecting plate (5), a mounting plate (6), a motor (7), a fan blade (8), a controller (9), and a wind control component. The molding machine (1) is equipped with a conveyor frame (2) on the front side. The placement plate (3) is slidably connected in the middle of the conveyor frame (2). The conveyor frame (2) is equipped with a power component for driving the placement plate (3) to move back and forth. Electric slide rails (4) are installed on both the left and right sides of the conveyor frame (2). The connecting plate (5) is slidably connected to the left and right sides of the conveyor frame (2). The electric slide rails (4) are used to drive the connecting plate (5) to move back and forth. A mounting plate (6) is set between the two connecting plates (5). A motor (7) and a fan blade (8) are installed on the mounting plate (6). The output shaft of the motor (7) is connected to the fan blade (8). A controller (9) is installed on the front side of the conveyor frame (2). The controller (9) is wired to the motor (7). A wind control component is set on the connecting plate (5) for controlling the mounting plate (6) to slide up and down.
2. The cooling device for sealing the edge of a silicone glass pot lid according to claim 1, characterized in that: The air control assembly includes a fixed frame (10), a guide frame (11), a guide rod (12), and a return spring (13). The front end of the conveyor frame (2) is connected to the front side of the molding machine (1) by a fixed frame (10). The bottom of the fixed frame (10) is connected to the guide frame (11). The guide frame (11) is slidably connected to the mounting plate (6). The two ends of the mounting plate (6) pass through the connecting plate (5), and the two ends of the mounting plate (6) are slidably connected to the connecting plate (5). The connecting plate (5) has a guide rod (12) connected in the sliding groove for the two ends of the mounting plate (6). The guide rod (13) is sleeved on the guide rod (12). The top of the return spring (13) is connected to the mounting plate (6), and the bottom of the return spring (13) is connected to the connecting plate (5).
3. The cooling device for sealing the edge of a silicone glass pot lid according to claim 2, characterized in that: It also includes a filter screen (14), and the top and bottom sides of the mounting plate (6) are both connected to the filter screen (14).
4. A cooling device for sealing the rim of a silicone glass pot lid according to claim 3, characterized in that: It also includes a semiconductor cooling cover (15), which is connected to the top of the mounting plate (6) and covers the top area of the fan blade (8).
5. A cooling device for sealing the rim of a silicone glass pot lid according to claim 4, characterized in that: It also includes a warning light (16), which is mounted on the mounting plate (6) and is wired to the controller (9).
6. A cooling device for edging a silicone glass pot lid according to claim 5, characterized in that: It also includes rollers (17), and rollers (17) are rotatably connected at the left and right ends of the mounting plate (6) where they contact the guide frame (11).
7. A cooling device for edging a silicone glass pot lid according to claim 6, characterized in that: It also includes an anti-accidental touch ring (18), and the controller (9) is equipped with several buttons. Several anti-accidental touch rings (18) are connected to the controller (9), and the anti-accidental touch ring (18) covers each button.
8. A cooling device for edging a silicone glass pot lid according to claim 7, characterized in that: It also includes a cover plate (19), and the side of the connecting plate (5) is connected to the cover plate (19). The cover plate (19) encapsulates the motion cavity of the guide rod (12) and the reset spring (13) inside the connecting plate (5).