press-fitting mechanism

By designing a bidirectional pressing assembly and a slide rail drive system, the problem of low unidirectional pressing efficiency in existing pressing mechanisms has been solved, achieving efficient workpiece pressing and burr removal, adapting to various workpiece shapes and sizes, and improving production efficiency and equipment versatility.

CN119858018BActive Publication Date: 2026-06-09SHENZHEN OUSHENG AUTOMATION CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
SHENZHEN OUSHENG AUTOMATION CO LTD
Filing Date
2024-12-26
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing pressing mechanisms can only drive the workpiece and product to press together in a single vertical direction, resulting in low pressing efficiency.

Method used

A press-fitting mechanism is designed, including a support plate, a first press-fitting component, and a second press-fitting component. The two components are coaxially arranged and can approach each other to achieve bidirectional press-fitting of the workpiece. Precise movement and fixation are achieved through slide rails and driving components.

Benefits of technology

It improves pressing efficiency, can simultaneously drive two workpieces to press into the product, adapts to workpieces of different sizes and shapes, integrates burr removal function, and improves production efficiency and equipment versatility.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application discloses a press-fitting mechanism, which comprises a support plate, a first press-fitting assembly and a second press-fitting assembly. The first press-fitting assembly is slidably arranged on the support plate and is used for fixing a first workpiece. The second press-fitting assembly is slidably arranged on the support plate and is used for fixing a second workpiece. The second press-fitting assembly is coaxially arranged with the first press-fitting assembly. The first press-fitting assembly can move towards the second press-fitting assembly. The second press-fitting assembly can move towards the first press-fitting assembly, and the first workpiece and the second workpiece are press-fitted into a product. Compared with the prior art which drives one workpiece to be press-fitted into a product in a single direction, the press-fitting mechanism can drive the first workpiece and the second workpiece to be press-fitted into the product, and the efficiency of press-fitting can be improved.
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Description

Technical Field

[0001] This invention relates to the technical field of processing equipment, and in particular to a pressing mechanism. Background Technology

[0002] Press-fitting mechanisms can press or assemble a workpiece into a product to achieve specific connection or assembly purposes. They are widely used in industrial production, especially in fields such as new energy vehicle manufacturing, machining, and electronic product assembly. Existing press-fitting mechanisms drive the workpiece downwards in a vertical direction to press it against the product, allowing only one workpiece to be pressed into the product in a single direction, resulting in low pressing efficiency. Summary of the Invention

[0003] The main objective of this invention is to provide a pressing mechanism that addresses the technical problem of existing pressing mechanisms that drive the workpiece and product downwards in a vertical direction to press together, resulting in low pressing efficiency as they can only drive one workpiece to press onto the product in one direction.

[0004] To achieve the above-mentioned objective, the present invention provides a pressing mechanism, comprising:

[0005] Support plate;

[0006] A first pressing assembly is slidably disposed on the support plate, and the first pressing assembly is used to fix the first workpiece; and

[0007] The second pressing assembly is slidably disposed on the support plate and is used to fix the second workpiece. The second pressing assembly is coaxially disposed with the first pressing assembly. The first pressing assembly can move toward the second pressing assembly, and the second pressing assembly can move toward the first pressing assembly, so that the first workpiece and the second workpiece are pressed into the product.

[0008] In one embodiment, the pressing mechanism includes a first slide rail, a first slider, and a second slider. The first slide rail is disposed on the support plate, and the first slider and the second slider are slidably disposed on the first slide rail. The first slider is connected to the first pressing assembly, and the second slider is connected to the second pressing assembly.

[0009] In one embodiment, the pressing mechanism includes a first driving member connected to the first pressing assembly, the first driving member being used to drive the first pressing assembly closer to the second pressing assembly; and / or

[0010] The pressing mechanism includes a second driving member, which is connected to the second pressing assembly. The second driving member is used to drive the second pressing assembly closer to the first pressing assembly.

[0011] In one embodiment, the first drive member and the second drive member are coaxially arranged.

[0012] In one embodiment, the first pressing assembly includes a first mounting plate, a first adjusting member, and a first pressing member. The first mounting plate is slidably disposed on the support plate. The first adjusting member is connected to both the first mounting plate and the first pressing member. The first pressing member is used to fix the first workpiece. The first adjusting member is capable of adjusting the distance between the first pressing member and the first mounting plate; and / or

[0013] The second pressing assembly includes a second mounting plate, a second adjusting member, and a second pressing member. The second mounting plate is slidably disposed on the support plate. The second adjusting member is connected to both the second mounting plate and the second pressing member. The second pressing member is used to fix the second workpiece. The second adjusting member can adjust the distance between the second pressing member and the second mounting plate.

[0014] In one embodiment, the pressing mechanism includes a first mounting base, a second mounting base, and a removal component. The first mounting base and the second mounting base are slidably disposed on the support plate. A third driving member is disposed on the first mounting base. The third driving member is connected to the removal component and drives the removal component to move so that the removal component can remove burrs from the product.

[0015] In one embodiment, the press-fitting assembly includes a fourth driving member, a first fixing member, and a second fixing member. The fourth driving member is disposed on the second mounting base and connected to the first fixing member. The second fixing member is disposed on the first mounting base. The first fixing member is used to fix the first workpiece, and the second fixing member is used to fix the second workpiece. The fourth driving member is used to drive the first fixing member to move toward the second fixing member.

[0016] In one embodiment, the pressing mechanism includes a second slide rail, a third slider, and a fourth slider. The second slide rail is disposed on the support plate, and the third and fourth sliders are slidably disposed on the second slide rail. The third slider is connected to the first mounting base, and the fourth slider is connected to the second mounting base.

[0017] In one embodiment, the pressing mechanism includes a first limiting member and a second limiting member, which are fixedly disposed on the support plate. The first limiting member and the second limiting member are disposed opposite to each other, and the first mounting base is located between the first limiting member and the second limiting member. One side of the first mounting base can abut against the first limiting member, and the other side of the second mounting plate can abut against the second limiting member. The first limiting member and the second limiting member together limit the maximum sliding range of the first mounting base.

[0018] In one embodiment, the pressing mechanism includes a third limiting member and a fourth limiting member, which are fixedly disposed on the support plate. The third limiting member and the fourth limiting member are disposed opposite to each other, and the second mounting seat is located between the third limiting member and the fourth limiting member. One side of the second mounting seat can abut against the third limiting member, and the other side of the second mounting plate can abut against the fourth limiting member. The third limiting member and the fourth limiting member together limit the maximum sliding range of the second mounting seat.

[0019] Beneficial effects:

[0020] The pressing mechanism of the present invention includes a support plate, a first pressing assembly, and a second pressing assembly. The first pressing assembly is slidably disposed on the support plate and is used to fix a first workpiece. The second pressing assembly is slidably disposed on the support plate and is used to fix a second workpiece. The second pressing assembly is coaxially disposed with the first pressing assembly. The first pressing assembly is movable toward the second pressing assembly, and the second pressing assembly is movable toward the first pressing assembly, thereby pressing the first and second workpieces into the product. During operation, the product is placed between the first and second workpieces. The first pressing assembly moves the first workpiece toward the second workpiece, and the second pressing assembly moves the second workpiece toward the first workpiece, pressing the first and second workpieces into the product. Compared to the prior art's unidirectional driving of one workpiece to press into the product, this pressing mechanism can drive both the first and second workpieces to press into the product, thus improving pressing efficiency. Attached Figure Description

[0021] Figure 1 This is a schematic diagram of the pressing mechanism according to an embodiment of the present invention.

[0022] Figure 2 This is a schematic diagram of the pressing mechanism of an embodiment of the present invention from another angle.

[0023] Figure 3 This is a schematic diagram of the pressing mechanism of an embodiment of the present invention from another angle.

[0024] in:

[0025] 100. Support plate;

[0026] 200. First pressing assembly; 210. First mounting plate; 220. First adjusting component; 230. First pressing component;

[0027] 300. Second press-fit assembly; 310. Second mounting plate; 320. Second adjusting component; 330. Second press-fit component;

[0028] 410. First slide rail; 420. First slider; 430. Second slider;

[0029] 510. First driving component; 520. Second driving component;

[0030] 610. First mounting base; 620. Second mounting base; 630. Removed component; 640. Third drive unit;

[0031] 710. Second slide rail; 720. Third slider; 730. Fourth slider;

[0032] 810. Fourth driving component; 820. First fixing component; 830. Second fixing component;

[0033] 910. First limiting component; 920. Second limiting component; 930. Third limiting component; 940. Fourth limiting component.

[0034] The realization of the objective, functional features and advantages of the present invention will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation

[0035] It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

[0036] In the description of this invention, it should be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," and "counterclockwise," etc., indicating orientations or positional relationships based on the orientations or positional relationships shown in the accompanying drawings, are only for the convenience of describing the invention 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 the invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of indicated technical features. Thus, features defined with "first" and "second" may explicitly or implicitly include one or more of the stated features. In the description of this invention, "a plurality of" means two or more, unless otherwise explicitly specified.

[0037] In the description of this invention, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "joining" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection, 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. Those skilled in the art can understand the specific meaning of the above terms in this invention according to the specific circumstances.

[0038] In this invention, unless otherwise explicitly specified and limited, "above" or "below" the second feature can include direct contact between the first and second features, or contact between the first and second features through another feature between them. Furthermore, "above," "over," and "on top" of the second feature includes the first feature directly above or diagonally above the second feature, or simply indicates that the first feature is at a higher horizontal level than the second feature. "Below," "below," and "under" the second feature includes the first feature directly below or diagonally below the second feature, or simply indicates that the first feature is at a lower horizontal level than the second feature.

[0039] like Figures 1 to 3As shown, in some embodiments, a pressing mechanism includes a support plate 100, a first pressing assembly 200, and a second pressing assembly 300. The first pressing assembly 200 is slidably disposed on the support plate 100 and is used to fix a first workpiece. The second pressing assembly 300 is slidably disposed on the support plate 100 and is used to fix a second workpiece. The second pressing assembly 300 is coaxially disposed with the first pressing assembly 200. The first pressing assembly 200 is movable toward the second pressing assembly 300, and the second pressing assembly 300 is movable toward the first pressing assembly 200, thereby pressing the first and second workpieces into the product.

[0040] During operation, the product is placed between the first workpiece and the second workpiece. The first pressing assembly 200 moves the first workpiece closer to the second workpiece, and the second pressing assembly 300 moves the second workpiece closer to the first workpiece. The first and second workpieces are then pressed onto the product. Compared with the prior art where one workpiece is driven in one direction to press onto the product, this pressing mechanism can drive the first and second workpieces to press onto the product, thus improving the pressing efficiency.

[0041] Specifically, this pressing mechanism can be applied to new energy vehicles, large home appliances, or furniture. More specifically, it can be used for pressing small parts in automotive parts and accessories boxes.

[0042] Specifically, the press-fitting mechanism can be a non-customized mechanism for heavy-duty products.

[0043] Specifically, both the first and second workpieces can be copper bushings. Specifically, the product can be automotive parts.

[0044] It should be noted that the support plate 100, as the basic support component of the pressing mechanism, provides an installation foundation and stable support platform for the first pressing assembly 200 and the second pressing assembly 300. The support plate 100 has good strength and rigidity to withstand the forces generated during the pressing process of the first pressing assembly 200 and the second pressing assembly 300, ensuring that the first pressing assembly 200 and the second pressing assembly 300 do not deform or shake during operation, thereby guaranteeing the accuracy and stability of the pressing process. The shape and size of the support plate 100 can be determined according to the layout of the first pressing assembly 200 and the second pressing assembly 300 and the pressing requirements of the product, to provide a reasonable spatial layout and stable mechanical support. Specifically, the support plate 100 can be a square plate. The support plate 100 can also serve as a base.

[0045] In some embodiments, the pressing mechanism includes a first slide rail 410, a first slider 420, and a second slider 430. The first slide rail 410 is disposed on the support plate 100, and the first slider 420 and the second slider 430 are slidably disposed on the first slide rail 410. The first slider 420 is connected to the first pressing assembly 200, and the second slider 430 is connected to the second pressing assembly 300.

[0046] It should be noted that the first slide rail 410 is mounted on the support plate 100. The first slider 420 and the second slider 430 are slidably disposed on the first slide rail 410, thereby realizing the relative sliding between the first pressing assembly 200 and the second pressing assembly 300 and the support plate 100. The first slide rail 410 provides a fixed guide reference for the first pressing assembly 200 and the second pressing assembly 300.

[0047] Specifically, the first slide rail 410 is arranged in a straight line. The first slide rail 410 provides precise linear motion guidance for the first pressing assembly 200 and the second pressing assembly 300, ensuring the straightness and parallelism of the first pressing assembly 200 and the second pressing assembly 300 during movement. This allows the first pressing assembly 200 and the second pressing assembly 300 to move precisely along a predetermined direction, ensuring that the first workpiece and the second workpiece are accurately aligned and pressed into the designated position within the product during pressing.

[0048] Through the precise cooperation between the first slider 420 and the second slider 430 and the first slide rail 410, the first pressing assembly 200 and the second pressing assembly 300 can be accurately positioned at any location. During the pressing process, the pressing assembly can be accurately positioned according to the pressing requirements of different products to facilitate precise pressing operations.

[0049] The friction between the first slider 420 and the second slider 430 and the first slide rail 410 needs to be smaller to ensure that the press assembly can move smoothly, while also ensuring sufficient contact rigidity to prevent deformation or loosening under the press force.

[0050] Specifically, the first slide rail 410 can be positioned along the length of the support plate 100. When the support plate 100 is placed vertically, the first slide rail 410 is also placed vertically. The first pressing assembly 200 and the second pressing assembly 300 move up and down vertically. During the pressing process, the first pressing assembly 200 slides downward and the second pressing assembly 300 slides upward.

[0051] Specifically, two first slide rails 410 can be provided. The two first slide rails 410 are set in parallel.

[0052] The two first slide rails 410 enable the first pressing assembly 200 and the second pressing assembly 300 to receive more even support and guiding force during sliding. During pressing, especially when handling larger or heavier first or second workpieces, the first pressing assembly 200 and the second pressing assembly 300 will experience significant reaction forces. The two first slide rails 410 can bear these reaction forces, preventing individual slide rails from deforming or being damaged due to excessive force, thereby ensuring the structural stability of the entire pressing mechanism.

[0053] In some embodiments, the pressing mechanism includes a first driving member 510 connected to a first pressing assembly 200. The first driving member 510 is used to drive the first pressing assembly 200 closer to the second pressing assembly 300. Specifically, the first driving member 510 is a power source. The first driving member 510 can be a cylinder or a hydraulic cylinder.

[0054] The first driving component 510 is connected to the first pressing assembly 200. This connection allows the first driving component 510 to effectively transmit its generated power to the first pressing assembly 200, thereby driving the first pressing assembly 200 to move linearly on the support plate 100. The connection can be achieved through mechanical connectors such as couplings, drive shafts, or linkage mechanisms, ensuring efficient and accurate power transmission. For example, using a rigid coupling to connect the output shaft of the first driving component 510 and the drive shaft of the first pressing assembly 200 can reduce energy loss and motion deviation during power transmission, ensuring that the first pressing assembly 200 can move precisely according to the output commands of the first driving component 510.

[0055] When a pressing operation is required, the first drive member 510 drives the first slider 420 to move on the first slide rail 410. Due to the connection between the first slider 420 and the first pressing assembly 200, the first pressing assembly 200 moves synchronously with the first slider 420, causing the first workpiece to move synchronously. Simultaneously, the second drive member 520 drives the second slider 430 to move on the first slide rail 410. Due to the connection between the second slider 430 and the second pressing assembly 300, the second pressing assembly 300 moves synchronously with the second slider 430, causing the second workpiece to move synchronously. The first pressing assembly 200 and the second pressing assembly 300 move closer to each other, pressing the first and second workpieces into the product. After pressing is complete, the first drive member 510 drives the first slider 420 away from the second pressing assembly 300, so that the first slider 420 moves the first pressing assembly 200 away from the second pressing assembly 300. The second drive member 520 drives the second slider 430 away from the first pressing assembly 200, so that the first pressing assembly 200 is away from the second pressing assembly 300. That is, the first pressing assembly 200 and the second pressing assembly 300 are moved away from each other.

[0056] In some embodiments, the pressing mechanism includes a second drive member 520 connected to the second pressing assembly 300. The second drive member 520 is used to drive the second pressing assembly 300 closer to the first pressing assembly 200. Specifically, the second drive member 520 is a power source. The second drive member 520 can be a cylinder or a hydraulic cylinder.

[0057] It should be noted that the connection method between the second drive component 520 and the second pressing assembly 300 is the same as the connection method between the first drive component 510 and the first pressing assembly 200, and will not be repeated here.

[0058] Specifically, the first driving member 510 and the second driving member 520 are coaxially arranged. That is, the central axes of the first driving member 510 and the second driving member 520 are on the same straight line.

[0059] In some embodiments, the first pressing assembly 200 includes a first mounting plate 210, a first adjusting member 220, and a first pressing member 230. The first mounting plate 210 is slidably disposed on the support plate 100. The first adjusting member 220 is connected to both the first mounting plate 210 and the first pressing member 230. The first pressing member 230 is used to fix the first workpiece. The first adjusting member 220 can adjust the distance between the first pressing member 230 and the first mounting plate 210. Specifically, the first mounting plate 210 is slidably disposed on the first slide rail 410. That is, the first mounting plate 210 is connected to the first slider 420. Specifically, the first pressing member 230 may be a floating expansion column.

[0060] It should be noted that the first mounting plate 210 provides mounting positions for the first adjusting component 220 and the first pressing component 230. The first mounting plate 210 can be connected to the support plate 100 through a first guide rail, a first slider 420 structure, or a linear bearing, etc., to ensure that the first pressing assembly 200 as a whole can move smoothly on the support plate 100, so as to realize the relative movement between the first pressing assembly 200 and the second pressing assembly 300, thereby performing the pressing operation.

[0061] The first adjusting member 220 can adjust the distance between the first pressing member 230 and the first mounting plate 210. For example, the distance between the first pressing member 230 and the first mounting plate 210 can be adjusted by a threaded adjustment method. The first adjusting member 220 can be a screw structure. By rotating the screw, the linear displacement of the first pressing member 230 is achieved by utilizing the thread pitch and rotation direction. When the screw rotates clockwise, the first pressing member 230 can move a certain distance closer to or further away from the first mounting plate 210 depending on the thread direction. Conversely, rotating the screw counterclockwise causes the first pressing member 230 to move in the opposite direction.

[0062] During the pressing process, different sizes of the first workpiece may be encountered. The presence of the first adjusting component 220 allows the pressing mechanism to quickly and easily adjust the position of the first pressing component 230 to adapt to the fixing and pressing requirements of workpieces of various sizes. For example, when pressing first workpieces with different heights are required, by adjusting the height distance of the first pressing component 230 relative to the first mounting plate 210, it can be ensured that the first workpiece can accurately align with the second workpiece during the pressing process. This eliminates the need to replace the entire pressing assembly or adjust other complex structures of the equipment, greatly improving the versatility and flexibility of the equipment and reducing production costs.

[0063] For workpieces with special shapes or sizes, it may be necessary to fine-tune the position of the first pressing component 230 during the pressing process to achieve the best pressing effect. The first adjusting component 220 can achieve this precise position adjustment, optimizing the initial position of the first workpiece before pressing according to the specific characteristics of the workpiece and the pressing process requirements. This ensures that the pressing force can be applied evenly and accurately to the first workpiece, improving the pressing quality and product consistency. For example, when pressing workpieces with irregular surfaces, adjusting the position of the first pressing component 230 can better distribute the pressing force to the key parts of the workpiece, avoiding workpiece damage or unqualified pressing due to uneven local force.

[0064] In some embodiments, the second pressing assembly 300 includes a second mounting plate 310, a second adjusting member 320, and a second pressing member 330. The second mounting plate 310 is slidably disposed on the support plate 100. The second adjusting member 320 is connected to both the second mounting plate 310 and the second pressing member 330. The second pressing member 330 is used to fix the second workpiece, and the second adjusting member 320 can adjust the distance between the second pressing member 330 and the second mounting plate 310. Specifically, the second pressing member 330 may be a floating expansion column. The specific structures of the first pressing assembly 200 and the second pressing assembly 300 are the same and will not be described again here.

[0065] In some embodiments, the pressing mechanism includes a first mounting base 610, a second mounting base 620, and a removal component 630. The first mounting base 610 and the second mounting base 620 are slidably disposed on the support plate 100. A third driving member 640 is disposed on the first mounting base 610. The third driving member 640 is connected to the removal component 630. The third driving member 640 drives the removal component 630 to move so that the removal component 630 can remove burrs from the product, pull out burrs from the inside of the product, and clean the inner surface of the product.

[0066] Specifically, the pressing mechanism includes a second slide rail 710, a third slider 720, and a fourth slider 730. The second slide rail 710 is disposed on the support plate 100, and the third slider 720 and the fourth slider 730 are slidably disposed on the second slide rail 710. The third slider 720 is connected to the first mounting base 610, and the fourth slider 730 is connected to the second mounting base 620.

[0067] It should be noted that the sliding mechanism of the first mounting base 610 and the second mounting base 620 on the support plate 100 can employ a guide rail slider structure, linear bearing guidance, etc., to ensure that the first mounting base 610 and the second mounting base 620 can move smoothly and accurately. For example, the second guide rail, the third slider 720, and the fourth slider 730 can provide high-precision linear motion guidance, keeping the first mounting base 610 and the second mounting base 620 stable during movement and reducing wobbling and offset.

[0068] The third drive component 640 can be a pneumatic cylinder or a hydraulic cylinder. The third drive component 640 drives the removal assembly 630 in linear motion. In practical applications, the movement mode of the removal assembly 630 needs to match the shape of the product, the distribution of burrs, and the overall layout of the pressing mechanism.

[0069] It should be noted that after the product pressing is completed, there is no need to transfer the product to a dedicated deburring device. Instead, the deburring component 630 is driven directly on the pressing mechanism by the third drive component 640 to remove burrs, thus integrating and automating the pressing and deburring processes. This significantly reduces turnaround time and manual operation in the production process, improving overall production efficiency. For example, in automotive parts production, for some parts that require pressing and deburring of components such as bearings, if the traditional separate processing method is used, they need to be pressed first and then transported to the deburring station. However, this solution allows for immediate deburring after pressing, saving a significant amount of time and increasing production line capacity.

[0070] In some embodiments, the press-fit assembly includes a fourth drive member 810, a first fixing member 820, and a second fixing member 830. The fourth drive member 810 is disposed on the second mounting base 620 and connected to the first fixing member 820. The second fixing member 830 is disposed on the first mounting base 610. The first fixing member 820 is used to fix the first workpiece, and the second fixing member 830 is used to fix the second workpiece. The fourth drive member 810 is used to drive the first fixing member 820 to move toward the second fixing member 830.

[0071] In some embodiments, the pressing mechanism includes a first limiting member 910 and a second limiting member 920. The first limiting member 910 and the second limiting member 920 are fixedly disposed on the support plate 100. The first limiting member 910 and the second limiting member 920 are disposed opposite to each other, and the first mounting base 610 is located between the first limiting member 910 and the second limiting member 920. One side of the first mounting base 610 can abut against the first limiting member 910, and the other side of the second mounting plate 310 can abut against the second limiting member 920. The first limiting member 910 and the second limiting member 920 together limit the maximum sliding range of the first mounting base 610.

[0072] It should be noted that the first limiting member 910 and the second limiting member 920 are fixedly mounted on the support plate 100, and the first limiting member 910 and the second limiting member 920 provide movement restriction boundaries for the first mounting base 610. The first limiting member 910 and the second limiting member 920 can be fixed to the fixed support plate 100 by bolt connection, welding or riveting, etc.

[0073] The first limiting member 910 and the second limiting member 920 are disposed opposite to each other, and the first mounting base 610 is located between the first limiting member 910 and the second limiting member 920. The first mounting base 610 slides within the interval. The two sides of the first mounting base 610 can respectively abut against the first limiting member 910 and the second limiting member 920. When the first mounting base 610 reaches a certain position during the sliding process, it will be blocked by the first limiting member 910 and the second limiting member 920, thereby restricting the first mounting base 610 from continuing to move.

[0074] like Figure 3 As shown, the first mounting base 610 slides along the support plate 100 under external drive. When the first mounting base 610 slides vertically downward, its bottom side approaches the first limiting member 910. When the bottom side of the first mounting base 610 abuts against the first limiting member 910, the first mounting base 610 cannot continue to slide, thus limiting the maximum sliding range of the first mounting base 610 in the vertically downward direction. Similarly, when the first mounting base 610 slides vertically upward, its top side abuts against the second limiting member 920, thus limiting the maximum sliding range of the first mounting base 610 in the vertically upward direction.

[0075] The first limiting member 910 and the second limiting member 920 together limit the maximum sliding range of the first mounting base 610, effectively preventing the first mounting base 610 from exceeding its normal range of motion due to loss of control during sliding, and avoiding collisions between the first mounting base 610 and other components. In the press-fitting mechanism, the spatial layout between various components is relatively compact. Without the restriction of the limiting members, if the first mounting base 610 moves excessively, it may collide with surrounding drive components, sensors, other mounting bases, or the product itself, leading to component damage, equipment failure, or even safety accidents.

[0076] In some embodiments, the pressing mechanism includes a third limiting member 930 and a fourth limiting member 940, which are fixedly disposed on the support plate 100. The third limiting member 930 and the fourth limiting member 940 are disposed opposite to each other, and the second mounting base 620 is located between the third limiting member 930 and the fourth limiting member 940. One side of the second mounting base 620 can abut against the third limiting member 930, and the other side of the second mounting plate 310 can abut against the fourth limiting member 940. The third limiting member 930 and the fourth limiting member 940 together limit the maximum sliding range of the second mounting base 620. The structure of the third limiting member 930 and the fourth limiting member 940 is basically the same as that of the first limiting member 910 and the second limiting member 920, and will not be described in detail here.

[0077] The above description is merely a preferred embodiment of the present invention and does not limit the patent scope of the present invention. Any equivalent structural or procedural transformations made based on the content of the present invention's specification and drawings, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of the present invention.

Claims

1. A pressing mechanism, characterized in that, include: Support plate; A first pressing assembly is slidably disposed on the support plate and is used to fix the first workpiece. and The second pressing assembly is slidably disposed on the support plate. The second pressing assembly is used to fix the second workpiece. The second pressing assembly is coaxially disposed with the first pressing assembly. The first pressing assembly can move toward the second pressing assembly, and the second pressing assembly can move toward the first pressing assembly, so that the first workpiece and the second workpiece are pressed into the product. The first pressing assembly includes a first mounting plate, a first adjusting member, and a first pressing member. The first mounting plate is slidably disposed on the support plate. The first adjusting member is connected to both the first mounting plate and the first pressing member. The first pressing member is used to fix the first workpiece. The first adjusting member can adjust the distance between the first pressing member and the first mounting plate; and / or The second pressing assembly includes a second mounting plate, a second adjusting member, and a second pressing member. The second mounting plate is slidably disposed on the support plate. The second adjusting member is connected to both the second mounting plate and the second pressing member. The second pressing member is used to fix the second workpiece. The second adjusting member can adjust the distance between the second pressing member and the second mounting plate. The pressing mechanism includes a first mounting base, a second mounting base, and a removal component. The first mounting base and the second mounting base are slidably disposed on the support plate. A third driving member is disposed on the first mounting base. The third driving member is connected to the removal component and drives the removal component to move so that the removal component can remove the burrs from the product.

2. The pressing mechanism according to claim 1, characterized in that, The pressing mechanism includes a first slide rail, a first slider, and a second slider. The first slide rail is disposed on the support plate, and the first slider and the second slider are slidably disposed on the first slide rail. The first slider is connected to the first pressing assembly, and the second slider is connected to the second pressing assembly.

3. The pressing mechanism according to claim 1, characterized in that, The pressing mechanism includes a first driving member, which is connected to the first pressing assembly. The first driving member is used to drive the first pressing assembly closer to the second pressing assembly; and / or The pressing mechanism includes a second driving member, which is connected to the second pressing assembly. The second driving member is used to drive the second pressing assembly closer to the first pressing assembly.

4. The pressing mechanism according to claim 3, characterized in that, The first driving component and the second driving component are coaxially arranged.

5. The pressing mechanism according to claim 1, characterized in that, The pressing mechanism includes a fourth driving member, a first fixing member, and a second fixing member. The fourth driving member is disposed on the second mounting base and is connected to the first fixing member. The second fixing member is disposed on the first mounting base. The first fixing member is used to fix the first workpiece, and the second fixing member is used to fix the second workpiece. The fourth driving member is used to drive the first fixing member to move toward the second fixing member.

6. The pressing mechanism according to claim 1, characterized in that, The pressing mechanism includes a second slide rail, a third slider, and a fourth slider. The second slide rail is disposed on the support plate, and the third and fourth sliders are slidably disposed on the second slide rail. The third slider is connected to the first mounting base, and the fourth slider is connected to the second mounting base.

7. The pressing mechanism according to claim 1, characterized in that, The pressing mechanism includes a first limiting member and a second limiting member. The first limiting member and the second limiting member are fixedly disposed on the support plate. The first limiting member and the second limiting member are disposed opposite to each other, and the first mounting seat is located between the first limiting member and the second limiting member. One side of the first mounting seat can abut against the first limiting member, and the other side of the first mounting seat can abut against the second limiting member. The first limiting member and the second limiting member together limit the maximum sliding range of the first mounting seat.

8. The pressing mechanism according to claim 1, characterized in that, The pressing mechanism includes a third limiting member and a fourth limiting member, which are fixedly mounted on the support plate. The third limiting member and the fourth limiting member are arranged opposite to each other, and the second mounting seat is located between the third limiting member and the fourth limiting member. One side of the second mounting seat can abut against the third limiting member, and the other side of the second mounting seat can abut against the fourth limiting member. The third limiting member and the fourth limiting member together limit the maximum sliding range of the second mounting seat.