Pressing mechanism and assembly box
The clamping and connecting parts of the pressing mechanism enable the rapid disassembly and assembly of the cabinet, solving the problem of inconvenient operation under the threaded connection method and improving the ease of installation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANGHAI XIANGDA IND ALUMINUM PROFILES CO LTD
- Filing Date
- 2025-05-13
- Publication Date
- 2026-06-19
AI Technical Summary
Existing cabinets often use threaded connections during assembly, which makes disassembly and reassembly inconvenient, especially when there are multiple mounting holes, and takes a long time.
A pressing mechanism is used to press the plates onto the mounting parts of the frame body through snap-fit parts and connectors. The threaded connection between the snap-fit parts and the mounting groove and the friction positioning of the elastic parts enable quick assembly and disassembly.
It improves the ease of disassembly and assembly of the cabinet, reduces operation time, and simplifies the operation process of the installation holes.
Smart Images

Figure CN224373311U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of cabinet technology, and in particular to pressing mechanisms and assembled cabinets. Background Technology
[0002] Most containers are manufactured as individual parts to avoid the problem of excessive size after assembly, which would hinder transportation.
[0003] Currently, most cabinets are assembled using threaded connections. This involves aligning the mounting holes of the panels with the threaded holes of the frame, inserting the bolts into the mounting holes with their shanks and turning them in, with the bolt heads abutting against the panels to install them as a single unit. Clearly, if disassembly and reassembly are needed, workers must completely unscrew the bolts from the frame and then re-screw them back in to the predetermined depth. This is inconvenient, and the numerous mounting holes further complicate the entire assembly and disassembly process, making it time-consuming. Utility Model Content
[0004] To solve the aforementioned technical problems and achieve at least one advantage of this application, this application provides a pressing mechanism for pressing a plate placed on the surface of a mounting member of a frame body onto a corresponding mounting member. The mounting member has a mounting groove, and the mounting member forms a slot communicating with the mounting groove in the depth direction and at least one through-hole communicating with the mounting groove in the length direction of the mounting groove. The plate is disposed on the frame body such that it partially lies on the sidewall surface of the mounting member forming the slot. The pressing mechanism includes:
[0005] A pressing body, wherein the pressing body has a plurality of spaced through holes;
[0006] Multiple connecting components, each including a snap-fit member and a connector, wherein the snap-fit member is larger than the size of the slot and is adapted to the size of the mounting slot and the through-hole, the snap-fit member is configured to slide into the corresponding mounting slot through one of the through-holes, and the connector includes a rod and a head, the head being formed by radially expanding one end of the rod, each connector having its head abutting against the edge of a through hole and its rod penetrating the corresponding through hole and extending into the mounting slot through the slot to be threadedly connected to a snap-fit member in the mounting slot, thereby assembling the mounting body onto the mounting member by pressing the portion of the plate located on the surface of the mounting member onto the side of the plate away from the mounting member.
[0007] According to one embodiment of this application, the snap-fit component includes a snap-fit body, an abutment block, and an elastic element. The snap-fit body has a mounting hole. The abutment block is inserted into the mounting hole, and one end of the abutment block is located in the mounting hole and connected to both ends of the elastic element, respectively, with the inner wall of the mounting hole. After the snap-fit component with the snap-fit body is slid into the mounting groove, the rod portion of the connector is threadedly connected to the snap-fit body. The abutment block abuts against the groove wall corresponding to the groove opening of the mounting groove, so that at least part of the abutment block is pressed into the mounting hole and compresses the elastic element connected thereto.
[0008] According to one embodiment of this application, the pressing body has a recessed groove, and the pressing body forms an opening communicating with the recessed groove in the depth direction of the recessed groove. One end of the through hole is formed in the inner wall of the recessed groove and the through hole communicates with the recessed groove. When the pressing body is assembled to the mounting member by the connecting assembly and the plate is pressed onto the mounting member, the head of the connecting member is placed in the recessed groove.
[0009] According to one embodiment of this application, the pressing mechanism further includes a cover member that is detachably mounted to the settling tank in such a way that it at least partially corresponds to the opening to cover the head inside the settling tank.
[0010] According to one embodiment of this application, the pressing body forms at least one opening communicating with the sink in the length direction of the sink, and the cover is configured to slide into the corresponding sink through one of the openings and engage in the sink with the head at least partially located in the sink on the side of the opening close to the opening.
[0011] According to one embodiment of this application, the pressing body forms two openings along the length of the sink, the two openings are respectively located at both ends of the corresponding sink and are both connected to the corresponding sink, and the cover can be inserted into or removed from the corresponding sink through either of the two openings.
[0012] To address the aforementioned technical problems and achieve at least one advantage of this application, this application provides an assembly box, the assembly box comprising:
[0013] At least one plate;
[0014] A frame body having at least one mounting member having at least one mounting groove, the mounting member forming a slot communicating with the mounting groove in the depth direction of each mounting groove and forming at least one through-hole communicating with the mounting groove in the length direction of each mounting groove, and a plate being disposed on the frame body in such a way that it is partially located on the side wall surface of the mounting member forming the slot.
[0015] At least one of the aforementioned pressure-pressing mechanisms.
[0016] According to one embodiment of this application, the mounting member forms two openings along the length of each mounting groove. The two openings are located at both ends of the corresponding mounting groove and are connected to the corresponding mounting groove. The snap-fit member with the mounting body can be inserted into or withdrawn from the corresponding mounting groove through either of the two openings.
[0017] According to one embodiment of this application, multiple mounting components are provided, and the number of pressing mechanisms is the same as the number of mounting components. Four of the mounting components are located on the same plane, and the four mounting components on the same plane are opposite each other in pairs, with each mounting component adjacent to two of the mounting components. The same plate is located on the surface of the four mounting components on the same plane. The four pressing bodies are respectively assembled with the four mounting components on the same plane through four connecting components and are collaboratively pressed onto the plate located on the surface of the mounting components.
[0018] According to one embodiment of this application, twelve mounting members are provided, and each mounting member is perpendicularly connected to two other mounting members at both ends to form a rectangular frame. Each mounting member forms two mounting slots, and the slots of four mounting members on the same plane are located on the same plane. Eight plates are provided, and the eight plates are respectively installed on eight sides of the frame through the cooperation of multiple pressing mechanisms and multiple mounting members. Attached Figure Description
[0019] Figure 1 A schematic diagram of the assembly box described in this application is shown.
[0020] Figure 2 A schematic diagram of the structure of the frame described in this application is shown.
[0021] Figure 3 A partial structural schematic diagram of the assembly box described in this application is shown.
[0022] Figure 4 It shows Figure 3 A structural sectional view.
[0023] Figure 5 It shows Figure 4 Enlarged view of a local structure.
[0024] Figure 6 A schematic diagram of the pressing mechanism described in this application is shown.
[0025] Figure 7 It shows Figure 6 Exploded view of the structure.
[0026] Figure 8 It shows Figure 6 A structural sectional view.
[0027] Figure 9 It shows Figure 8 Enlarged view of a local structure. Detailed Implementation
[0028] The following description is intended to disclose this application and enable those skilled in the art to implement it. The preferred embodiments described below are merely examples, and other obvious variations will occur to those skilled in the art. The basic principles of this application defined in the following description can be applied to other embodiments, modifications, improvements, equivalents, and other technical solutions that do not depart from the spirit and scope of this application.
[0029] Those skilled in the art should understand that, in the disclosure of this application, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," and "outer," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They 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. Therefore, the above terms should not be construed as limitations on this application.
[0030] It is understood that the term "a" should be understood as "at least one" or "one or more", that is, in one embodiment, the number of an element can be one, while in another embodiment, the number of the element can be multiple, and the term "a" should not be understood as a limitation on the number.
[0031] refer to Figures 1 to 9 An assembly box according to a preferred embodiment of this application will be described in detail below. The assembly box includes a frame body 10 and at least one plate 20. The frame body 10 has at least one mounting member 11, and the mounting member 11 has at least one mounting groove 1101. The mounting member 11 forms a slot 1102 communicating with the mounting groove 1101 in the depth direction of each mounting groove 1101 and forms at least one through-hole 1103 communicating with the mounting groove 1101 in the length direction of each mounting groove 1101. One of the plate members 20 is disposed on the frame body 10 such that it is partially located on the side wall surface of the mounting member 11 where the slot 1102 is formed.
[0032] The assembly box further includes at least one pressing mechanism 30, which is used to press the plate 20 placed on the surface of one of the mounting members 11 onto the corresponding mounting member 11.
[0033] The pressing mechanism 30 includes a pressing body 31 and a plurality of connecting components 32. The pressing body 31 has a plurality of spaced-apart through holes 3101. The connecting components 32 include a snap-fit member 321 and a connector 322. The snap-fit member 321 is larger than the size of the slot 1102 and is adapted to the size of the mounting slot 1101 and the through-hole 1103. The snap-fit member 321 is configured to slide into the corresponding mounting slot 1101 through the through-hole 1103. The connector 322 includes a rod portion 3221 and a head 3222. The head 3222 is formed by radially expanding one end of the rod portion 3221. Each connector 322 abuts against the edge of a through hole 3101 with its head 3222 and its rod 3221 passes through the corresponding through hole 3101 and extends into the mounting groove 1101 through the slot 1102 to be threadedly connected to a snap-fit 321 in the mounting groove 1101. The mounting body 31 is then assembled onto the mounting member 11 by pressing the portion of the plate 20 located on the surface of the mounting member 11 onto the side of the plate 20 away from the mounting member 11, thereby assembling the plate 20 and the frame body 10 into one unit.
[0034] During assembly, the snap-fit member 321 is pre-installed on the pressing body 31 via the connector 322. The connector 322, which is equipped with the pressing body 31, is slid into the corresponding mounting groove 1101 through the through-hole 1103. At this time, the pressing body 31 is located on the side of the plate 20 on the surface of the mounting member 11 away from the corresponding mounting member 11. Then, the connector 322 is rotated so that the rod 3221 is rotated into the snap-fit member 321 until the head 3222 abuts against the pressing body 31, so that the plate 20 is pressed onto the mounting member 11 by the pressing body 31. During disassembly, the connector 322 is loosened and the pressing body 31 is pulled so that the snap-fit member 321 slides out of the through-hole 1103 from the mounting groove 1101. In this way, the plate 20 can be quickly disassembled and assembled through the cooperation of the pressing mechanism 30 and the mounting part 11. Compared with the common threaded connection method, it is not necessary to completely turn out the screw when disassembling, which increases the convenience of installation and disassembly.
[0035] It is worth mentioning that the snap-fit member 321 located in the mounting groove 1101 abuts against the mounting groove 1101 to restrict the axial rotation of the rod portion 3221. In this way, no external force is needed to fix the snap-fit member 321, making the assembly operation simple and convenient.
[0036] Preferably, the mounting member 11 forms two openings 1103 along the length of each mounting groove 1101. The two openings 1103 are located at both ends of the corresponding mounting groove 1101 and are both connected to the corresponding mounting groove 1101. The snap-fit member 321 equipped with the mounting body 31 can be inserted into or withdrawn from the corresponding mounting groove 1101 through either of the two openings 1103, thereby increasing the convenience of assembly and disassembly.
[0037] Furthermore, the snap-fit component 321 includes a snap-fit body 3211, an abutment block 3212, and an elastic member 3213. The snap-fit body 3211 has a mounting hole 321101. The abutment block 3212 is inserted into the mounting hole 321101 and is located at one end of the mounting hole 321101. The inner wall of the mounting hole 321101 is connected to both ends of the elastic member 3213. After the snap-fit member 321, which is equipped with the mounting body 31, slides into the mounting groove 1101, the rod portion 3221 of the connector 322 is threadedly connected to the snap-fit body 3211. The abutment block 3212 abuts against the groove wall corresponding to the mounting groove 1101 and the slot opening 1102, so that the abutment block 3212 is at least partially pressed into the mounting hole 321101 and compresses the elastic member 3213 connected thereto. This increases the friction between the groove wall corresponding to the mounting groove 1101 and the slot opening 1102 and the abutment block 3212, thereby positioning the mounting body 31 and preventing the mounting body 31 from easily sliding in a direction parallel to the length direction of the mounting groove 1101 under the action of external force.
[0038] Preferably, the elastic element 3213 is implemented as a spring.
[0039] Preferably, the pressing body 31 has a recessed groove 3102, and the pressing body 31 forms an opening 3103 communicating with the recessed groove 3102 in the depth direction of the recessed groove 3102. One end of the through hole 3101 is formed in the inner wall of the recessed groove 3102 and the through hole 3101 communicates with the recessed groove 3102. When the pressing body 31 is assembled to the mounting member 11 by the connecting assembly 32 and the plate 20 is pressed into the mounting member 11, the head 3222 of the connecting member 322 is placed in the recessed groove 3102, thereby reducing the occupation of external space.
[0040] The pressing mechanism 30 also includes a cover 33, which is detachably installed in the sink 3102 in such a way that it corresponds at least partially to the opening 3103 to cover the head 3222 inside the sink 3102, thus improving the aesthetics compared to the exposed head 3222.
[0041] Furthermore, the pressing body 31 forms at least one opening 3104 communicating with the sink 3102 along its length. The cover 33 is configured to slide into the corresponding sink 3102 through one of the openings 3104 and engage with the sink 3102 such that its head 3222 is at least partially located within the sink 3102 on the side near the opening 3103. In this way, the cover 33 can be easily installed and removed by simply inserting and removing it.
[0042] Preferably, the pressing body 31 forms two openings 3104 along the length of the recess 3102. The two openings 3104 are located at both ends of the corresponding recess 3102 and are both connected to the corresponding recess 3102. The cover 33 can be inserted into or removed from the corresponding recess 3102 through either of the two openings 3104, thereby increasing the convenience of assembly and disassembly.
[0043] In one embodiment, multiple mounting members 11 are provided, and the number of pressing mechanisms 30 is the same as the number of mounting members 11. Four of the mounting members 11 are located on the same plane, with each pair of mounting members 11 facing each other and each mounting member 11 adjacent to two other mounting members 11. The same plate 20 is located on the surface of the four mounting members 11 on the same plane. Four pressing bodies 31 are assembled with the four mounting members 11 on the same plane via four connecting components 32, and collaboratively press against the plate 20 located on the surface of the mounting members 11. In this way, the plate 20 can be assembled onto the frame 10 through the cooperation of the pressing mechanisms 30 and the mounting members 11, making the operation convenient.
[0044] Furthermore, twelve mounting members 11 are provided, and each mounting member 11 is perpendicularly connected to two other mounting members 11 at both ends to form a rectangular frame 10. Each mounting member 11 forms two mounting slots 1101, and the slot openings 1102 of one mounting slot 1101 of four mounting members 11 on the same plane are located on the same plane. Eight plates 20 are provided, and the eight plates 20 are respectively installed on eight sides of the frame 10 through the cooperation of multiple pressing mechanisms 30 and multiple mounting members 11.
[0045] Those skilled in the art should understand that the embodiments of this application described above and shown in the accompanying drawings are merely examples and do not limit the scope of this application. The advantages of this application have been fully and effectively implemented. The functional and structural principles of this application have been demonstrated and explained in the embodiments, and any variations or modifications can be made to the implementation of this application without departing from the stated principles.
Claims
1. A pressing mechanism, said pressing mechanism being used to press a plate placed on the surface of a mounting member of a frame body onto a corresponding mounting member, said mounting member having a mounting groove, said mounting member forming a slot communicating with said mounting groove in the depth direction of said mounting groove and forming at least one through-hole communicating with said mounting groove in the length direction of said mounting groove, said plate being disposed on said frame body such that it is partially located on the sidewall surface of said mounting member forming the slot, characterized in that, The pressurization mechanism includes: A pressing body, wherein the pressing body has a plurality of spaced through holes; Multiple connecting components, each including a snap-fit member and a connector, wherein the snap-fit member is larger than the size of the slot and is adapted to the size of the mounting slot and the through-hole, the snap-fit member is configured to slide into the corresponding mounting slot through one of the through-holes, and the connector includes a rod and a head, the head being formed by radially expanding one end of the rod, each connector having its head abutting against the edge of a through hole and its rod penetrating the corresponding through hole and extending into the mounting slot through the slot to be threadedly connected to a snap-fit member in the mounting slot, thereby assembling the mounting body onto the mounting member by pressing the portion of the plate located on the surface of the mounting member onto the side of the plate away from the mounting member.
2. The pressing mechanism according to claim 1, characterized in that, The snap-fit component includes a snap-fit body, an abutment block, and an elastic element. The snap-fit body has a mounting hole. The abutment block is inserted into the mounting hole, with one end of the abutment block positioned in the mounting hole and the inner wall of the mounting hole respectively connected to both ends of the elastic element. After the snap-fit component with the snap-fit body is slid into the mounting groove, the rod portion of the connector is threadedly connected to the snap-fit body. The abutment block abuts against the groove wall corresponding to the groove opening of the mounting groove, so that at least part of the abutment block is pressed into the mounting hole and compresses the elastic element connected thereto.
3. The pressing mechanism according to claim 1 or 2, characterized in that, The pressing body has a recessed groove, and the pressing body forms an opening in the depth direction of the recessed groove that communicates with the recessed groove. One end of the through hole is formed in the inner wall of the recessed groove and the through hole communicates with the recessed groove. When the pressing body is assembled to the mounting component through the connecting assembly and the plate is pressed onto the mounting component, the head of the connecting component is placed in the recessed groove.
4. The pressing mechanism according to claim 3, characterized in that, The pressing mechanism further includes a cover that is detachably mounted to the settling tank in such a way that it at least partially corresponds to the opening to cover the head inside the settling tank.
5. The pressing mechanism according to claim 4, characterized in that, The pressurizing body forms at least one opening communicating with the sink along the length of the sink, and the cover is configured to slide into the corresponding sink through one of the openings and engage with the sink in such a way that the head is at least partially located in the sink on the side of the opening near the opening.
6. The pressing mechanism according to claim 5, characterized in that, The pressing body forms two openings along the length of the sink, with the two openings located at the two ends of the corresponding sink and both communicating with the corresponding sink. The cover can be inserted into or removed from the corresponding sink through either of the two openings.
7. An assembly box, characterized in that, The assembly box includes: At least one plate; A frame body having at least one mounting member having at least one mounting groove, the mounting member forming a slot communicating with the mounting groove in the depth direction of each mounting groove and forming at least one through-hole communicating with the mounting groove in the length direction of each mounting groove, and a plate being disposed on the frame body in such a way that it is partially located on the side wall surface of the mounting member forming the slot. At least one pressure-loading mechanism as described in any one of claims 1 to 6.
8. The assembly box according to claim 7, characterized in that, The mounting component forms two openings along the length of each mounting slot. The two openings are located at both ends of the corresponding mounting slot and are connected to the corresponding mounting slot. The snap-fit component with the mounting body can be inserted into or withdrawn from the corresponding mounting slot through either of the two openings.
9. The assembly box according to claim 7 or 8, characterized in that, Multiple mounting components are provided, and the number of pressing mechanisms is the same as the number of mounting components. Four of the mounting components are located on the same plane, and the four mounting components on the same plane are opposite each other and each mounting component is adjacent to two of the mounting components. The same plate is located on the surface of the four mounting components on the same plane. The four pressing bodies are respectively assembled with the four mounting components on the same plane through four connecting components and are jointly pressed onto the plate located on the surface of the mounting components.
10. The assembly box according to claim 9, characterized in that, The mounting components are provided in twelve units. Each mounting component is perpendicularly connected to two other mounting components at both ends to form a rectangular frame. Each mounting component forms two mounting slots. The slots of four mounting components on the same plane are located on the same plane. The plates are provided in eight units. The eight plates are respectively installed on the eight sides of the frame through the cooperation of multiple pressing mechanisms and multiple mounting components.