A wine bottle sealing gasket dismounting structure
By designing a disassembly and assembly structure for wine bottle sealing gaskets and replacing manual disassembly and assembly with mechanized operation, efficient, safe, and standardized installation and disassembly of sealing gaskets have been achieved. This solves the problems of high safety risks and low efficiency in existing technologies and improves disassembly and assembly efficiency and installation accuracy.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHINA RESOURCES SNOW BREWERIES CO LTD
- Filing Date
- 2025-06-03
- Publication Date
- 2026-06-16
AI Technical Summary
The existing process of disassembling and assembling bottle seals has problems of high safety risks and low efficiency, especially since it relies on manual operation and lacks standardized and efficient disassembly and assembly technology solutions.
A bottle sealing gasket disassembly and assembly structure was designed, including a workbench, a stamping die, a stamping lever, and a disassembly component. The gasket can be efficiently installed and disassembled by precise positioning of the limiting mounting table, movement of the stamping component, and wedge-shaped separation end of the disassembly component, and by using mechanized operation to replace manual operation.
It improves the efficiency of disassembling and assembling bottle seals, reduces labor intensity, enhances operational safety, ensures the installation accuracy and quality of seals, and reduces the risk of seal deformation or breakage.
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Figure CN224359212U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of alcohol production equipment technology, and in particular to a disassembly and assembly structure for a wine bottle sealing gasket. Background Technology
[0002] In the wine production process, the installation and removal of the bottle sealing gasket is a crucial step, as its sealing performance directly affects the quality of the wine. Current technology primarily employs manual installation and removal, requiring operators to use tools such as screwdrivers to pry the gasket off the centering cover. This method suffers from significant drawbacks, including high safety risks and low efficiency. Therefore, there is an urgent need for an efficient, safe, and standardized technology for installing and removing wine bottle sealing gaskets. Utility Model Content
[0003] Therefore, it is necessary to provide a bottle sealing gasket disassembly and assembly structure to address the problems of low efficiency, high labor intensity, and high safety risks associated with disassembling and assembling bottle sealing gaskets.
[0004] A wine bottle sealing gasket disassembly and assembly structure includes:
[0005] The workbench has a limit mounting platform on its surface, which is used to place the centering cover.
[0006] A stamping die includes a die housing, a stamping chamber, and stamping components. The die housing is disposed on the surface of a worktable, and the stamping chamber is disposed inside the die housing for placing a sealing gasket. A stamping window is provided on the stamping chamber. The stamping components are movably disposed on the die housing, and the stamping end of the stamping components can move in the direction toward and away from the stamping chamber, pressing the sealing gasket from the stamping window onto the centering cover.
[0007] The stamping lever is mounted on the worktable surface by a fixing component, and one end of the stamping lever is rotatably connected to the fixing component; the stamping lever is used to push the stamping part to move.
[0008] The disassembly component is rotatably connected to a stamping lever and is used to separate the sealing gasket from the centering cover.
[0009] In one embodiment, the stamping component includes a pushing end, and a stamping engagement portion is provided on the stamping lever for pushing the pushing end of the stamping component.
[0010] In one embodiment, the mold housing is disposed on the worktable surface via a rotating connection assembly, the rotating connection assembly including a fixed rod and a rotating rod hinged to the fixed rod, the mold housing being connected to the rotating rod;
[0011] A limit rod is provided on the surface of the worktable to limit the rotation range of the rotating rod.
[0012] In one embodiment, the mold housing includes a main body and a guide frame; the stamping component is disposed in the guide hole of the guide frame;
[0013] The stamping chamber is located inside the main body, and the stamping chamber has a centering inlet facing the guide hole. The stamping window is located on the main body.
[0014] In one embodiment, the disassembly component is rotatably mounted on one side of the stamping lever, and one end of the disassembly component is provided with a separation end, which is used to snap into the sealing gasket and the centering cover.
[0015] In one embodiment, the stamping lever has an abutment protrusion on one side of the disassembly member to restrict the rotation of the disassembly member.
[0016] In one embodiment, when the stamping lever moves, the stamping window is positioned toward the limiting mounting platform, and the central axis of the stamping window is collinear with the central axis of the limiting mounting platform.
[0017] In one embodiment, the top surface of the fastener is provided with an overlapping position for placing the disassembly component.
[0018] In one embodiment, the disassembly component is configured as a rod, which is rotatably connected to one side of the stamping lever via a rotating column.
[0019] In one embodiment, the stamping lever is hinged to the top of the fixing member.
[0020] The aforementioned bottle sealing gasket assembly / disassembly structure includes a worktable, a stamping die, a stamping lever, and disassembly components. The worktable is a surface-fixed limiting mounting platform used for positioning and centering the gasket. The stamping die includes a die housing, a stamping chamber, and stamping components. The die housing is fixed to the worktable surface, and its hollow interior forms the stamping chamber for placing the sealing gasket. A circular stamping window is opened at the top of the stamping chamber. The stamping component is a cylindrical rod with a hemispherical stamping end at its bottom and its top end penetrating the top surface of the die housing and extending to the outside, forming a clearance fit with a guide hole on the top surface of the die housing, allowing it to slide vertically up and down. The stamping lever is mounted on the other side of the worktable surface via a fixing component. The bottom end of the fixing component is fixed to the worktable with bolts, and the top end has a hinge hole. One end of the stamping lever is rotatably connected to this hinge hole via a pin, forming a lever fulcrum. The disassembly component is hinged to the side of the stamping lever near the free end via a rotating column. The rotating column is welded perpendicularly to the stamping lever. The disassembly component can rotate around the rotating column in a vertical plane. The end of its vertical section is a wedge-shaped separation end, which is used to fit into the gap between the sealing gasket and the centering cover. Attached Figure Description
[0021] Figure 1 This is a schematic diagram of the disassembly and assembly structure of the wine bottle sealing gasket provided in the embodiments of this application.
[0022] Figure 2 This is a side view of the disassembly and assembly structure of the wine bottle sealing gasket provided in the embodiment of this application.
[0023] Figure 3 This is a top view of the disassembly and assembly structure of the wine bottle sealing gasket provided in the embodiment of this application.
[0024] Figure 4 This is a schematic diagram of the disassembly and assembly structure of the wine bottle sealing gasket provided in the embodiments of this application from another perspective.
[0025] Figure 5 This is a schematic diagram of the structure of the stamping die and stamping lever provided in the embodiments of this application.
[0026] Figure 6 This is a schematic diagram of the structure of the stamping die provided in the embodiment of this application.
[0027] Figure 7 This is a schematic diagram of the structure of the disassembly component separating the sealing gasket according to an embodiment of this application.
[0028] Icon labels:
[0029] 1000. Workbench; 1001. Limiting device mounting table;
[0030] 2000, Stamping die; 2001, Die shell; 2002, Stamping chamber; 2003, Stamping component; 2004, Stamping window; 2005, Main body; 2006, Guide frame;
[0031] 3000, stamping lever; 3001, fastener; 3002, abutment protrusion;
[0032] 4000, Disassembled parts;
[0033] 5000, Fixed rod; 5001, Rotating rod; 5002, Limiting rod. Detailed Implementation
[0034] To make the above-mentioned objectives, features, and advantages of this application more apparent and understandable, the specific embodiments of this application are described in detail below with reference to the accompanying drawings. Many specific details are set forth in the following description to provide a thorough understanding of this application. However, this application can be implemented in many other ways different from those described herein, and those skilled in the art can make similar modifications without departing from the spirit of this application. Therefore, this application is not limited to the specific embodiments disclosed below.
[0035] In the description of this application, it should be understood that if terms such as "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential" appear, these terms indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing this application 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, and therefore should not be construed as a limitation of this application.
[0036] Furthermore, where the terms "first" and "second" appear, these terms are for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Thus, a feature defined with "first" or "second" may explicitly or implicitly include at least one of that feature. In the description of this application, where the term "multiple" appears, "multiple" means at least two, such as two, three, etc., unless otherwise explicitly specified.
[0037] In this application, unless otherwise expressly specified and limited, the terms "installation," "connection," "joining," and "fixing," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components, unless otherwise expressly limited. Those skilled in the art can understand the specific meaning of the above terms in this application based on the specific circumstances.
[0038] In this application, unless otherwise expressly specified and limited, the use of descriptions such as "above" or "below" the second feature indicates that the first and second features are in direct contact or indirect contact via an intermediate medium. Furthermore, "above," "on top of," and "over" the second feature can mean that the first feature is directly above or diagonally above the second feature, or simply that the first feature is at a higher horizontal level than the second feature. Similarly, "below," "below," and "under" the second feature can mean that the first feature is directly below or diagonally below the second feature, or simply that the first feature is at a lower horizontal level than the second feature.
[0039] It should be noted that if an element is referred to as being "fixed to" or "set on" another element, it can be directly on the other element or there may be an intervening element. If an element is considered to be "connected to" another element, it can be directly connected to the other element or there may be an intervening element. If so, the terms "vertical," "horizontal," "upper," "lower," "left," "right," and similar expressions used in this application are for illustrative purposes only and do not represent the only possible implementation.
[0040] See Figures 1-6 As shown, Figure 1 This is a schematic diagram of the disassembly and assembly structure of the wine bottle sealing gasket provided in the embodiments of this application. Figure 2 This is a side view of the disassembly and assembly structure of the wine bottle sealing gasket provided in the embodiments of this application. Figure 3 This is a top view of the disassembly and assembly structure of the wine bottle sealing gasket provided in the embodiments of this application. Figure 4 This is a schematic diagram of the disassembly and assembly structure of the wine bottle sealing gasket provided in the embodiments of this application from another perspective. Figure 5 This is a schematic diagram of the structure of the stamping die and stamping lever provided in the embodiments of this application. Figure 6This is a schematic diagram of the stamping die provided in an embodiment of this application. The bottle sealing gasket disassembly and assembly structure shown includes a workbench 1000, a stamping die 2000, a stamping lever 3000, and a disassembly component 4000. The workbench 1000 serves as an integral support base, and a limiting mounting platform 1001 is fixedly installed on its surface. The limiting mounting platform 1001 is a circular groove, the size of which matches the outer periphery of the bottom of the centering cover, for precise positioning of the centering cover. The stamping die 2000 includes a die shell 2001, a stamping chamber 2002, and a stamping component 2003. The die shell 2001 is fixed to one side of the workbench 1000 surface by bolts. Its interior is hollow, forming the stamping chamber 2002. The cross-sectional shape of the stamping chamber 2002 is consistent with the outer contour of the sealing gasket, forming an annular cavity structure. A circular stamping window 2004 is opened at the top, the diameter of which is slightly larger than the outer diameter of the sealing gasket. The stamping component 2003 is a cylindrical rod with a hemispherical stamping end at the bottom and its top end penetrating the top surface of the mold housing 2001 and extending to the outside, forming a clearance fit with the guide hole on the top surface of the mold housing 2001, allowing it to slide vertically up and down. The stamping lever 3000 is mounted on the other side of the worktable 1000 via a fixing member 3001. The bottom end of the fixing member 3001 is fixed to the worktable 1000 with bolts, and its top end has a hinge hole. One end of the stamping lever 3000 is rotatably connected to this hinge hole via a pin, forming a lever fulcrum. The disassembly component 4000 is a rod with its horizontal section hinged to the side of the stamping lever 3000 near the free end via a rotating column. The rotating column is welded perpendicularly to the stamping lever 3000. The disassembly component 4000 can rotate around the rotating column in a vertical plane. Its vertical section has a wedge-shaped separating end for engaging the gap between the sealing gasket and the centering cover.
[0041] When installing the sealing gasket, first place the centering cover on the limiting mounting platform 1001 and position it using the groove contour; then place the sealing gasket into the stamping chamber 2002, making its bottom surface fit against the bottom of the stamping chamber 2002; then press down the free end of the stamping lever 3000, and the lever rotates around the hinge hole at the top of the fixing part 3001. Its upper side pushes the top of the stamping part 2003, causing the stamping end to move downward, pressing the sealing gasket out from the stamping window 2004 and precisely pressing it into the sealing groove at the top of the centering cover, thus completing the installation process. When disassembling the used sealing gasket, first place the centering cover back on the limiting mounting platform 1001, rotate the stamping lever 3000 to bring it close to the side of the limiting mounting platform 1001, and at the same time rotate the disassembly part 4000 downward around the rotating column so that the wedge-shaped separation end is inserted into the gap between the edge of the centering cover and the used sealing gasket; continue to press down the stamping lever 3000, and use the prying force generated by the lever principle to quickly peel the sealing gasket off the centering cover through the disassembly part 4000, thus completing the disassembly process.
[0042] In some embodiments of this application, the stamping component 2003 is a hollow cylindrical rod with an annular boss forming a pushing end on its outer top. The diameter of the boss is larger than the inner diameter of the guide hole on the top surface of the mold housing 2001 to prevent the stamping component 2003 from falling completely into the stamping chamber 2002. The stamping lever 3000 has a bent structure, with a rectangular protrusion in the middle of its side near the stamping component 2003 as a stamping mating part. The height of this protrusion is the same as the height of the annular boss on the pushing end, and its width is slightly smaller than the outer diameter of the boss, ensuring that the two form a surface fit when in contact. The relative position of the stamping mating part and the pushing end is designed such that when the stamping lever 3000 is in the initial horizontal position, there is a gap between the bottom surface of the stamping mating part and the top surface of the pushing end, which facilitates the formation of an effective thrust when the operator presses down the lever.
[0043] When installing the gasket, the operator holds the free end of the stamping lever 3000 and applies downward pressure. The lever rotates counterclockwise around the hinge hole at the top of the fixing member 3001. The stamping mating part gradually approaches the pushing end as the lever rotates until the top surfaces of the two contact and generate thrust. As the lever continues to press down, the stamping mating part pushes the pushing end downward, causing the stamping end of the stamping component 2003 to press the gasket out of the stamping window 2004. During this process, the rectangular protrusion of the stamping mating part and the annular boss of the pushing end form a stable surface contact transmission, avoiding stress concentration or slippage that may occur with traditional point contact.
[0044] When disassembling the sealing gasket, as mentioned above, the movement of the stamping lever 3000 is achieved only through the disassembly part 4000, and the stamping mating part is disengaged from the pushing end and does not participate in the disassembly process.
[0045] The surface contact design between the stamping mating part and the pushing end makes the force transmission during the stamping process more uniform and stable, which can reduce the stamping force loss, ensure that the gasket is subjected to consistent force when pressed, avoid the problem of gasket deformation or damage caused by uneven local force, and improve the stability of installation quality.
[0046] In some embodiments of this application, the bottom of the mold housing 2001 is connected to the surface of the worktable 1000 via a rotating connection assembly, which includes a fixed rod 5000 and a rotating rod 5001. The fixed rod 5000 is a cylindrical rod vertically welded to the surface of the worktable 1000, with a horizontal hinge hole at its top. The rotating rod 5001 is a rod whose vertical section is rotatably connected to the hinge hole of the fixed rod 5000 via a pin, and its horizontal section is welded and fixed to the bottom of the mold housing 2001. A limiting rod is installed on the surface of the worktable 1000 corresponding to the rotation path of the rotating rod 5001. The limiting rod consists of two short columns vertically welded to the worktable 1000, located on the left and right sides of the initial position of the rotating rod 5001, respectively. The distance between the two limits the maximum rotation angle of the rotating rod 5001 to 90°, allowing the mold housing 2001 to switch between the "working position" and the "maintenance position": when the rotating rod 5001 is in contact with the left limiting rod, the stamping window 2004 of the mold housing 2001 is directly facing the center of the limiting mounting table 1001 (working position); when the rotating rod 5001 is in contact with the right limiting rod, the mold housing 2001 rotates 90° outward, and the stamping chamber 2002 is exposed to the outside of the worktable 1000 (maintenance position).
[0047] During normal assembly and disassembly operations, the mold housing 2001 is in the working position, and the central axis of the stamping window 2004 is collinear with the central axis of the limiting mounting platform 1001, ensuring precise alignment of the sealing gasket during pressing and disassembly. When it is necessary to clean the stamping chamber 2002 or replace the mold, the operator can manually push the mold housing 2001 to rotate outward. The rotating rod 5001 rotates around the hinge hole at the top of the fixed rod 5000 until it is in contact with the right limiting rod. At this time, the stamping chamber 2002 is fully exposed, allowing the operator to directly access the interior for cleaning or component replacement. After maintenance, the mold housing 2001 is rotated in the opposite direction until the left limiting rod is reset, restoring the working state.
[0048] The design of the rotating connection assembly and the limiting rod gives the mold housing 2001 flexible workstation switching capabilities. A 90° rotation allows for rapid switching between the working and maintenance positions, significantly improving equipment maintainability. The mechanical limiting action of the limiting rod ensures the mold housing 2001 remains fixed in the working position, preventing seal installation deviations caused by mold movement during stamping. Combined with the dual positioning of the limiting mounting table 1001, this enhances installation accuracy.
[0049] In some embodiments of this application, the mold housing 2001 consists of a main body 2005 and a guide frame 2006, which are fixedly connected by bolts. The main body 2005 is a cylindrical cavity with a closed bottom, and a hollow interior forming a stamping chamber 2002. The inner diameter of the stamping chamber 2002 is adapted to the outer diameter of the sealing gasket, forming an annular stepped structure. An annular limiting boss is provided at the bottom to limit the placement position of the sealing gasket. A circular stamping window 2004 is opened at the center of the top surface of the main body 2005, and the diameter of the window is equal to the outer diameter of the part of the sealing gasket to be pressed. The guide frame 2006 is a rectangular frame structure, fixed to the top surface of the main body 2005. A vertical guide hole is opened inside it, and the diameter of the guide hole is clearance-fitted with the outer diameter of the stamping component 2003 to ensure that the stamping component 2003 can move vertically along the axial direction. The stamping chamber 2002 has a centering inlet on the side facing the guide hole (i.e., the top surface of the main body 2005). The centering inlet is a fan-shaped opening that communicates with the stamping chamber 2002. Its arc is 90° and the width of the opening is the same as the thickness of the sealing gasket. This makes it easy for the operator to put the sealing gasket into the stamping chamber 2002 from the side, while ensuring that the central axis of the sealing gasket is completely aligned with the central axis of the guide hole and the stamping window 2004 after it is put in.
[0050] When installing the sealing gasket, the operator first pushes the gasket into the stamping chamber 2002 from the side through the centering inlet, ensuring its bottom surface aligns with the limiting boss. At this point, the gasket achieves radial and axial positioning through the annular step and the limiting boss. Then, the stamping lever 3000 is pressed down, causing the stamping component 2003 to move vertically downwards along the guide hole. The stamping end enters the stamping chamber 2002 through the centering inlet, pressing the gasket out from the stamping window 2004 and onto the centering cover. The guide hole of the guide frame 2006 provides rigid constraint to the stamping component 2003, ensuring the stamping direction is perfectly perpendicular to the central axis of the gasket, preventing deformation of the gasket caused by tilted stamping. During disassembly, the mold housing 2001 does not need to rotate; the operation is completed directly through the stamping lever 3000 and the disassembly component 4000. The centering inlet does not participate in the disassembly process.
[0051] The separate design of the main body 2005 and the guide frame 2006 facilitates the processing and maintenance of the mold. The precise fit of the guide holes can control the linearity error of the stamping part 2003 within 0.1mm, significantly improving the pressing accuracy. The combination of the annular limiting boss and the centering inlet realizes the "side insertion and precise centering" of the sealing gasket. Compared with the traditional top insertion method, it can reduce the visual error caused by the operator looking down for alignment.
[0052] In some embodiments of this application, reference is made to the appendix. Figure 7 , Figure 7This is a schematic diagram of the disassembly component 4000 provided in this application embodiment when separating the sealing gasket. The disassembly component 4000 is equipped with a rod, the horizontal section of which is hinged to the right side of the stamping lever 3000 near its free end via a rotating column. The rotating column is a cylindrical pin vertically welded to the surface of the stamping lever 3000, allowing the disassembly component 4000 to rotate freely in a vertical plane around the rotating column. The end of the vertical section of the disassembly component 4000 is machined into a wedge-shaped separation end, the wedge angle of which can precisely fit into the gap between the sealing gasket and the centering cover. The top surface of the separation end has a rounded transition, while the bottom surface is flat, facilitating insertion and reducing frictional resistance. A cylindrical abutment protrusion 3002 is welded to the right side of the stamping lever 3000, corresponding to the rotation path of the disassembly component 4000. When the disassembly component 4000 rotates downwards to its limit position, the bottom surface of the horizontal section of the disassembly component 4000 contacts the top surface of the abutment protrusion 3002, limiting its rotation angle and preventing excessive rotation that could damage the surface of the centering cover.
[0053] When disassembling the used sealing gasket, first place the centering cover on the limiting mounting platform 1001. The operator holds the free end of the stamping lever 3000 and lifts it upwards, causing the stamping lever 3000 to rotate clockwise around the hinge hole at the top of the fixing part 3001, moving the disassembly part 4000 towards the centering cover. At the same time, manually rotate the disassembly part 4000 downwards around the rotating column, aligning the wedge-shaped separating end with the gap between the edge of the centering cover and the sealing gasket. Continue to press down the stamping lever 3000. The rotation of the lever is transmitted to the disassembly part 4000 through the rotating column. Using the lever principle, the prying force is generated, causing the separating end to gradually wedge into the gap and pry the sealing gasket upwards until it is peeled off from the centering cover. The abutment protrusion 3002 acts as a limiting fulcrum during disassembly, ensuring a stable insertion depth of the separating end and preventing damage to the centering cover or sealing gasket due to excessive prying. After disassembly, the disassembly part 4000 can be rotated upwards to a horizontal position, with its horizontal section resting on the top surface of the abutment protrusion 3002 for easy handling by the operator.
[0054] In some embodiments of this application, a cylindrical abutment protrusion 3002 is vertically welded to the stamping lever 3000 near the hinge position of the disassembly member 4000. The disassembly member 4000 is a rod, hinged to one side of the stamping lever 3000 via a rotating column. When the disassembly member 4000 is in its initial horizontal position, there is a gap between its bottom surface and the top surface of the abutment protrusion 3002; when the disassembly member 4000 rotates downward around the rotating column to its limit position, its separating end contacts the outer circumferential surface of the abutment protrusion 3002, forming a rotation limit. The circumferential surface of the abutment protrusion 3002 is polished to reduce frictional wear with the disassembly member 4000.
[0055] When disassembling the gasket, the operator first rotates the disassembly part 4000 downwards, causing its separating end to engage with the gap between the gasket and the centering cover. Then, the operator presses down the stamping lever 3000. When the disassembly part 4000 rotates to 45°, the separating end moves to its limit position with the stamping lever 3000, its end contacting the outer surface of the abutment protrusion 3002, preventing further rotation of the disassembly part 4000. After disassembly, the operator lifts the stamping lever 3000 upwards, and the disassembly part 4000 returns to a horizontal position under gravity, its bottom surface forming a gap with the top surface of the abutment protrusion 3002 again, facilitating the next operation.
[0056] In some embodiments of this application, the limiting mounting platform 1001 on the surface of the workbench 1000 has a circular boss structure, its central axis is perpendicular to the surface of the workbench 1000 and is marked with a center positioning mark; the stamping window 2004 of the mold housing 2001 is a circular through hole, and its central axis coincides with the central axis of the stamping chamber 2002. The stamping lever 3000 is hinged to the right edge of the workbench 1000 via the fixing member 3001. The horizontal distance between the hinge point of the fixing member 3001 and the center of the limiting mounting platform 1001 is 200mm. The length of the stamping lever 3000 is designed such that when the stamping lever 3000 is in the initial horizontal position, the horizontal distance between the central axis of the stamping window 2004 and the central axis of the limiting mounting platform 1001 is 150mm. When the operator presses the free end of the stamping lever 3000 to the lower left, the stamping lever 3000 rotates around the hinge point at the top of the fixing member 3001, driving the mold housing 2001 (via the rotating connecting assembly) to move towards the limiting mounting platform 1001 until the stamping lever 3000 rotates to an angle of 45° with the horizontal plane. At this time, the central axis of the stamping window 2004 is completely collinear with the central axis of the limiting mounting platform 1001, and the stamping window 2004 is directly above the limiting mounting platform 1001.
[0057] When installing the sealing gasket, the operator first places the centering cover on the limiting mounting platform 1001. Coarse positioning is achieved through the fit between the edge of the boss and the bottom of the centering cover, while simultaneously observing the alignment of the stamping window 2004 with the center mark of the limiting mounting platform 1001. Then, the operator presses the free end of the stamping lever 3000. During the lever's rotation, a transmission mechanism (such as a connecting rod or gear, not shown in the figure) drives the mold housing 2001 to move horizontally, causing the stamping window 2004 to gradually move towards the center of the limiting mounting platform 1001. When the lever rotates to a 45° position, the stamping window 2004 automatically aligns with the central axis of the limiting mounting platform 1001. At this point, the stamping component 2003 can be pressed down to complete the sealing gasket pressing. During this process, the mechanical structure forcibly ensures that the axes of the two are collinear, eliminating the need for manual visual alignment and avoiding gasket misalignment due to operational errors. When removing the sealing gasket, the stamping lever 3000 returns to its initial position, and the stamping window 2004 separates from the limiting mounting platform 1001, facilitating the removal and placement of the centering cover.
[0058] In some embodiments of this application, the fixing member 3001 is a metal bracket, with its bottom end fixed to the surface of the workbench 1000 by bolts. A rectangular overlapping position is provided on the top surface of the top horizontal plate, and the overlapping position is machined with anti-slip textures. The disassembly member 4000 is a straight rod structure, with one end hinged to the bottom of the stamping lever 3000 near its free end via a rotating column, and the other end being a flat-headed detachable end. When the disassembly member 4000 is not in use, it can be rotated upwards to a horizontal position, with its rod body fitting against the overlapping position at the top of the fixing member 3001. The anti-slip textures increase friction, allowing the disassembly member 4000 to be stably placed on the fixing member 3001, preventing it from wobbling.
[0059] When installing the gasket, the disassembly part 4000 is in an overlapping position, with its separate end located at the overlapping position on the top surface of the fixing part 3001, which does not affect the normal operation of the stamping die 2000. When it is necessary to remove the gasket, the operator manually removes the disassembly part 4000 from the overlapping position, rotates it downwards around the rotating column to the working position, and aligns the separate end with the gap between the centering cover and the gasket. After the operation is completed, the disassembly part 4000 is rotated back to a horizontal position and placed on the top surface of the fixing part 3001 for easy access next time.
[0060] In some embodiments of this application, during disassembly, the operator pinches the disassembly component 4000 with their thumb and forefinger, inserts the separating end into the gap between the edge of the centering cover and the sealing gasket, and then presses down on the free end of the punch lever 3000. Utilizing the lever principle and with the rotating column as the fulcrum, the disassembly component 4000 generates an upward prying force, peeling the sealing gasket from the centering cover. Because the disassembly component 4000 is a round rod structure, the operator can flexibly adjust its insertion direction according to the actual gap angle to adapt to different wear levels between the centering cover and the sealing gasket.
[0061] In some embodiments of this application, the stamping lever 3000 is hinged to the top of the fixing member 3001. The fixing member 3001 is a vertically arranged cylindrical rod with a horizontal hinge shaft machined at its top, the diameter of which is 15mm, and the distance between the axis and the surface of the worktable 1000 is 120mm. The stamping lever 3000 has a "T"-shaped structure with a circular hinge hole in its middle, the diameter of which is 16mm, and is fitted onto the hinge shaft at the top of the fixing member 3001 to form a rotating pair. The two ends of the hinge shaft are fixed by snap rings to prevent the stamping lever 3000 from moving axially. The long arm (free end) of the stamping lever 3000 is 300mm long, and the short arm (the end connecting the stamping component 2003) is 100mm long, with a length ratio of 3:1, forming a force-saving lever structure.
[0062] The technical features of the above embodiments can be combined in any way. For the sake of brevity, not all possible combinations of the technical features in the above embodiments are described. However, as long as there is no contradiction in the combination of these technical features, they should be considered to be within the scope of this specification.
[0063] The embodiments described above are merely illustrative of several implementation methods of this application, and while the descriptions are relatively specific and detailed, they should not be construed as limiting the scope of the patent application. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of this application, and these all fall within the protection scope of this application. Therefore, the protection scope of this patent application should be determined by the appended claims.
Claims
1. A disassembly and assembly structure for a wine bottle sealing gasket, characterized in that, The disassembly and assembly structure of the wine bottle sealing gasket includes: A workbench, the surface of which is provided with a limiting mounting platform, the limiting mounting platform being used to place a centering cover; A stamping die includes a die housing, a stamping chamber, and a stamping component. The die housing is disposed on the surface of the worktable, and the stamping chamber is disposed within the die housing for placing a sealing gasket. A stamping window is provided on the stamping chamber. The stamping component is movably disposed on the die housing, and the stamping end of the stamping component can move in directions toward and away from the stamping chamber, pressing the sealing gasket from the stamping window onto the centering cover. A stamping lever is mounted on the surface of the worktable via a fixing member, and one end of the stamping lever is rotatably connected to the fixing member; the stamping lever is used to push the stamping component to move. The disassembly component is rotatably connected to the stamping lever and is used to separate the sealing gasket from the centering cover.
2. The disassembly and assembly structure for the wine bottle sealing gasket according to claim 1, characterized in that, The stamping component includes a pushing end, and the stamping lever is provided with a stamping mating part, which is used to push the pushing end of the stamping component.
3. The disassembly and assembly structure for the wine bottle sealing gasket according to claim 1, characterized in that, The mold housing is mounted on the worktable surface via a rotating connection assembly. The rotating connection assembly includes a fixed rod and a rotating rod hinged to the fixed rod. The mold housing is connected to the rotating rod. A limit rod is provided on the surface of the worktable to limit the rotation range of the rotating rod.
4. The disassembly and assembly structure for the wine bottle sealing gasket according to claim 1, characterized in that, The mold housing includes a main body and a guide frame; the stamping component is disposed in the guide hole of the guide frame; The stamping chamber is located inside the main body, and the stamping chamber has a centering inlet facing the guide hole. The stamping window is located on the main body.
5. The disassembly and assembly structure for the wine bottle sealing gasket according to claim 1, characterized in that, The disassembly component is rotatably mounted on one side of the stamping lever. One end of the disassembly component is provided with a separation end, which is used to engage with the sealing gasket and the centering cover.
6. The disassembly and assembly structure for the wine bottle sealing gasket according to claim 1, characterized in that, The stamping lever has an abutment protrusion on one side of the disassembly component to restrict the rotation of the disassembly component.
7. The disassembly and assembly structure for the wine bottle sealing gasket according to claim 1, characterized in that, When the stamping lever moves, the stamping window is positioned toward the limiting mounting platform, and the central axis of the stamping window is collinear with the central axis of the limiting mounting platform.
8. The disassembly and assembly structure for the wine bottle sealing gasket according to claim 1, characterized in that, The top surface of the fastener has an overlapping position for placing the disassembly component.
9. The disassembly and assembly structure for the wine bottle sealing gasket according to claim 1, characterized in that, The disassembly component is configured as a rod, and the disassembly component is rotatably connected to one side of the stamping lever via a rotating column.
10. The disassembly and assembly structure for the wine bottle sealing gasket according to claim 1, characterized in that, The stamping lever is hinged to the top of the fixing member.