A frame assembly and a special-shaped plug piece
By designing a reasonable layout for the base and outer frame in the frame assembly, and combining the directional arrangement of the conveyor line and insert module, the problem of insufficient space utilization in the existing technology is solved, and more efficient space utilization and cuboid arrangement are achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ENJESS SMART SYSTHENZHEN CO LTD
- Filing Date
- 2025-08-01
- Publication Date
- 2026-06-26
AI Technical Summary
The existing frame components have insufficient space utilization, resulting in a large space occupation.
Design a frame assembly including a base and an outer frame. The outer frame has an opening along the length direction. The conveyor line is arranged along the front-to-back direction, and the insert module and transfer module are arranged along the left-to-right direction to achieve a reasonable layout and improve space utilization.
By optimizing the layout, the space utilization of the frame components was improved, the width space occupied was reduced, and a cuboid arrangement was achieved.
Smart Images

Figure CN224419171U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of irregularly shaped inserts, and in particular to a frame assembly and an irregularly shaped insert. Background Technology
[0002] With the development of technology, irregularly shaped insert components are used in industry to connect electronic components to circuit boards, and the frame assembly is part of the irregularly shaped insert component. In the existing technology, the existing frame assembly includes a frame, two conveyor lines, and two insert modules. The conveyor lines and insert modules are arranged along the front-back direction of the frame, and each insert module is arranged corresponding to each conveyor line. The two conveyor lines and two insert modules are connected to the frame. However, this occupies a large space in the frame, resulting in insufficient space utilization of the existing frame assembly. Utility Model Content
[0003] The purpose of this utility model is to provide a frame assembly and an irregularly shaped insert component. The frame includes a base and an outer frame. The outer frame is located on the upper side of the base and is arranged along the length of the base. The outer frame has two openings, which are arranged along the length of the outer frame and connect to the conveying space in the base in the left-right direction. The conveying space is located in the middle of the outer frame. The frame is arranged in a cuboid shape. A conveyor line is installed on the base and arranged relative to the conveying space. The conveyor line is arranged in the front-back direction and is used to convey the circuit board to be inserted. Two insert modules are arranged relative to the two openings and are located on both sides of the conveyor line. Each insert module has a corresponding support seat, which is used to support the electronic component to be inserted. A transfer module is located above the base and between the two insert modules. The transfer module can pass through the two support seats and the conveyor line and insert the electronic component to be inserted into the corresponding circuit board, so that the two insert modules can act on one conveyor line, achieving a reasonable layout, improving the space utilization of the frame assembly, and realizing the cuboid arrangement of the frame, reducing the width space occupied by the frame.
[0004] To achieve the above objectives, this utility model provides the following technical solution: a frame assembly applied to irregularly shaped inserts, the frame assembly comprising:
[0005] The frame includes a base and an outer frame; the outer frame is disposed on the upper side of the base and arranged along the length direction of the base; the outer frame has two openings, which are arranged along the length direction of the outer frame and connect to the conveying space located on the base in the left-right direction; the conveying space is opened in the middle of the outer frame; the frame is arranged in the shape of a cuboid.
[0006] A conveyor line, installed on the base and arranged relative to the conveying space, is arranged along the front-back direction and is used to convey circuit boards to be inserted;
[0007] Two insert modules are respectively arranged opposite to the two openings and are located on both sides of the conveyor line; each insert module is provided with a corresponding carrier for supporting the electronic component to be inserted.
[0008] The transfer module is located above the base and between the two insertion modules. The transfer module can pass through the two carriers and the conveyor line and insert the electronic components to be inserted into the corresponding circuit board.
[0009] Optionally, the insert module, the transfer module, and another insert module are arranged sequentially along the left-right direction and along the length direction of the frame;
[0010] The transfer direction of the electronic component to be inserted in the transfer module is a first direction, and the conveying direction of the conveyor line is a second direction. The first direction and the second direction are left-right and front-back directions, respectively.
[0011] Optionally, the two insert modules are a first insert module and a second insert module;
[0012] The transfer module includes a first sub-transfer module and a second sub-transfer module; the first sub-transfer module and the second sub-transfer module are arranged along the length of the frame and are spaced apart;
[0013] The first sub-transfer module is located between the first insert module and the conveyor line, and inserts the electronic component to be inserted in the first insert module into the circuit board in the conveyor line.
[0014] The second sub-transfer module is located between the second insert module and the conveyor line, and inserts the electronic components to be inserted in the second insert module into the circuit board in the conveyor line.
[0015] Optionally, the first sub-transfer module and the second sub-transfer module are located on the left and right sides of the conveyor line, respectively.
[0016] Optionally, the outer frame is provided with a top plate, which is located above the base and supports the first sub-transfer module and the second sub-transfer module;
[0017] The first sub-transfer module includes a first movable base and a first transfer arm. The first movable base is movably connected to the top plate and moves in the left-right direction. The first transfer arm is connected to the first movable base and moves back and forth between the first insertion module and the conveyor line as the first movable base moves. The first transfer arm is used to insert the electronic component to be inserted in the first insertion module into the circuit board in the conveyor line.
[0018] Optionally, the second sub-transfer module includes a second movable base and a second transfer arm. The second movable base is movably connected to the top plate and moves in the left-right direction. The second transfer arm is connected to the second movable base and moves back and forth between the second insertion module and the conveyor line as the second movable base moves. The second transfer arm is used to insert the electronic component to be inserted in the second insertion module into the circuit board in the conveyor line.
[0019] The second movable seat and the first movable seat are both connected to the same top plate and are located at different positions on the top plate.
[0020] Optionally, the moving direction of the first movable seat is perpendicular to the conveying direction of the conveyor line; the first transfer arm is movably connected to the first movable seat and can move in multiple axes relative to the first movable seat.
[0021] The second movable seat moves in a direction perpendicular to the conveying direction of the conveyor line; the second transfer arm is movably connected to the second movable seat and moves in multiple axes relative to the second movable seat.
[0022] Optionally, the frame assembly further includes two display modules, which are distributed at the left and right ends of the housing and located above the corresponding openings;
[0023] The two display modules are exposed outside the outer frame and are used for user viewing.
[0024] Optionally, the two display modules are electrically connected to their respective insert modules;
[0025] The two display modules are located on top of the corresponding insert modules, and the two display modules are arranged opposite each other along the left and right direction of the outer frame.
[0026] To achieve the above objectives, this utility model provides the following technical solution: an irregularly shaped insert, including the aforementioned frame assembly.
[0027] Compared with the prior art, the beneficial effects of this utility model are:
[0028] This utility model provides a frame assembly and an irregularly shaped insert component. The frame includes a base and an outer frame. The outer frame is disposed on the upper side of the base and arranged along the length of the base. The outer frame has two openings, which are arranged along the length of the outer frame and connect to the conveying space in the base in the left-right direction. The conveying space is located in the middle of the outer frame. The frame is arranged in a cuboid shape. A conveyor line is installed on the base and arranged relative to the conveying space. The conveyor line is arranged in the front-back direction and is used to convey the circuit board to be inserted. Two insert modules are respectively arranged relative to the two openings and are disposed on both sides of the conveyor line. Each insert module has a corresponding support seat, which is used to support the electronic component to be inserted. A transfer module is disposed above the base and between the two insert modules. The transfer module can pass through the two support seats and the conveyor line and insert the electronic component to be inserted into the corresponding circuit board, so that the two insert modules can act on one conveyor line, realizing a reasonable layout, improving the space utilization of the frame assembly, and realizing the cuboid arrangement of the frame, reducing the width space occupied by the frame. Attached Figure Description
[0029] To more clearly illustrate the technical solutions in the embodiments of this application, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0030] To gain a more complete understanding of this application and its beneficial effects, the following description will be provided in conjunction with the accompanying drawings. In the following description, the same reference numerals denote the same parts.
[0031] Figure 1 A schematic diagram of a frame assembly according to an embodiment of this application is shown.
[0032] Figure 2 A schematic diagram of the internal structure of a frame assembly according to an embodiment of this application is shown.
[0033] Figure 3 A front view of the internal structure of a frame assembly according to an embodiment of this application is shown.
[0034] Figure 4 A schematic diagram of a transfer module for a frame assembly according to an embodiment of this application is shown.
[0035] Figure 5 A schematic diagram of the first sub-transfer module of the frame assembly according to an embodiment of this application is shown.
[0036] Figure Labels
[0037] 100. Frame components;
[0038] 10. Frame; 11. Base; 12. Outer frame; 12a. Opening; 121. Top plate;
[0039] 20. Conveyor line;
[0040] 30. Insertion module; 31. Support base; 32. First insertion module; 33. Second insertion module;
[0041] 40. Transfer module; 41. First sub-transfer module; 411. First movable seat; 412. First transfer arm; 4121. Lifting seat; 4122. Air nozzle; 4123. Pneumatic gripper; 413. First moving module; 414. Second moving module; 42. Second sub-transfer module; 421. Second movable seat; 422. Second transfer arm; 50. Display module. Detailed Implementation
[0042] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of this application, and not all of them. All other embodiments obtained by those skilled in the art based on the embodiments of this application without creative effort are within the scope of protection of this application.
[0043] Please refer to the attached document. Figures 1-5 This application provides a frame assembly 100, which is applied to irregularly shaped inserts and supports a conveyor line 20, two insert modules 30 and a transfer module 40.
[0044] Please refer to the attached document. Figures 1-5In this embodiment, the frame assembly 100 includes a frame 10, a conveyor line 20, two insert modules 30, and a transfer module 40. The frame 10 includes a base 11 and an outer frame 12. The outer frame 12 is disposed on the upper side of the base 11 and arranged along the length direction of the base 11. The outer frame 12 has two openings 12a, which are arranged along the length direction of the outer frame 12 and connect to the conveying space in the base 11 in the left-right direction. The conveying space is located in the middle of the outer frame 12. The frame 10 is arranged in a cuboid shape. The conveyor line 20 is installed on the base 11 and arranged relative to the conveying space. The conveyor line 20 is arranged in the front-back direction and is used to convey the circuit board to be inserted. Each insert module 30 is arranged opposite to the two openings 12a and is located on both sides of the conveyor line 20. Each insert module 30 is provided with a corresponding support 31, which is used to support the electronic component to be inserted. The transfer module 40 is located above the base 11 and between the two insert modules 30. The transfer module 40 can pass through the two support 31 and the conveyor line 20 and insert the electronic component to be inserted into the corresponding circuit board, so that the two insert modules 30 can act on one conveyor line 20, realizing a reasonable layout, improving the space utilization of the frame assembly 100, and realizing the cuboid arrangement of the frame 10, reducing the width space occupied by the frame 10.
[0045] Please refer to the attached document. Figures 1-5 In this embodiment of the application, the frame 10 includes a base 11 and an outer frame 12; the outer frame 12 is disposed on the upper side of the base 11 and arranged along the length direction of the base 11; the outer frame 12 is provided with two openings 12a, which are arranged along the length direction of the outer frame 12 and communicate with the conveying space in the base 11 in the left and right directions; the conveying space is opened in the middle of the outer frame 12; the frame 10 is arranged in a cuboid shape; the outer frame 12 serves as a protective layer for the frame 10 and is used to protect the components inside the frame 10.
[0046] The conveyor line 20 is mounted on the base 11 and arranged relative to the conveying space. The conveyor line 20 is arranged in the front-back direction and is used to convey the circuit board to be inserted, so as to facilitate the position transfer of the circuit board to be inserted.
[0047] Two insert modules 30 are respectively arranged opposite to the two openings 12a and are set on both sides of the conveyor line 20; each insert module 30 is provided with a corresponding support 31, which is used to support the electronic component to be inserted; so that the two insert modules 30 can act on one conveyor line 20, realizing a reasonable layout, improving the space utilization of the frame assembly 100, and realizing the cuboid arrangement of the frame 10, reducing the width space occupied by the frame 10.
[0048] The transfer module 40 is positioned above the base 11 and between the two insertion modules 30. The transfer module 40 can pass through the two carrier seats 31 and the conveyor line 20 and insert the electronic components to be inserted into the corresponding circuit board. The transfer module 40 enables the automatic insertion of the electronic components to be inserted into the circuit board, avoiding manual operation.
[0049] Please refer to the attached document. Figures 1-3 In this embodiment, the insert module 30, the transfer module 40 and the other insert module 30 are arranged sequentially along the left and right directions and along the length direction of the frame 10, so that the insert module 30, the transfer module 40 and the other insert module 30 can make full use of the length space of the frame 10.
[0050] The transfer direction of the electronic component to be inserted in the transfer module 40 is the first direction, and the conveying direction of the conveyor line 20 is the second direction. The first direction and the second direction are left-right and front-back directions, respectively, so that the first direction and the second direction are arranged perpendicularly, thereby facilitating the transfer module 40 to rotate 90° to insert the electronic component to be inserted relative to the circuit board.
[0051] Please refer to the attached document. Figures 1-3 In this embodiment, the two insert modules 30 are a first insert module 32 and a second insert module 33; the transfer module 40 is provided with a first sub-transfer module 41 and a second sub-transfer module 42; the first sub-transfer module 41 and the second sub-transfer module 42 are arranged along the length direction of the frame 10 and are spaced apart; so that the first sub-transfer module 41 and the second sub-transfer module 42 can make full use of the length space of the frame 10.
[0052] The first sub-transfer module 41 is located between the first insertion module 32 and the conveyor line 20, and inserts the electronic components to be inserted from the first insertion module 32 into the circuit board on the conveyor line 20; so that the electronic components to be inserted can be automatically inserted into the circuit board on the conveyor line 20 through the first sub-transfer module 41.
[0053] The second sub-transfer module 42 is located between the second insertion module 33 and the conveyor line 20. It inserts the electronic components to be inserted from the second insertion module 33 into the circuit board on the conveyor line 20. This allows the electronic components to be inserted into the circuit board on the conveyor line 20 automatically via the second sub-transfer module 42. This facilitates the cooperation between the first sub-transfer module 41 and the second sub-transfer module 42 to insert the electronic components to be inserted into the circuit board on the conveyor line 20, thereby improving the insertion efficiency of the electronic components.
[0054] Please refer to the attached document. Figures 1-3In this embodiment, the first sub-transfer module 41 and the second sub-transfer module 42 are located on the left and right sides of the conveyor line 20, respectively, so that the first sub-transfer module 41 and the second sub-transfer module 42 can make full use of the left and right spaces of the conveyor line 20, and avoid mutual interference between the first sub-transfer module 41 and the second sub-transfer module 42.
[0055] Please refer to the attached document. Figures 1-4 In this embodiment, the outer frame 12 is provided with a top plate 121, which is located above the base 11 and supports the first sub-transfer module 41 and the second sub-transfer module 42. This allows the outer frame 12 to support the first sub-transfer module 41 and the second sub-transfer module 42 through the top plate 121, ensuring that the first sub-transfer module 41 and the second sub-transfer module 42 are positioned above the conveyor line 20 and the two insert modules 30.
[0056] The first sub-transfer module 41 includes a first movable base 411 and a first transfer arm 412. The first movable base 411 is movably connected to the top plate 121 and moves in the left and right direction to adjust the left and right position of the first movable base 411 relative to the top plate 121. The first transfer arm 412 is connected to the first movable base 411 and moves back and forth between the first insertion module 32 and the conveyor line 20 as the first movable base 411 moves. The first transfer arm 412 is used to insert the electronic component to be inserted in the first insertion module 32 into the circuit board in the conveyor line 20, so as to realize the automatic insertion of the electronic component to be inserted into the circuit board in the conveyor line 20.
[0057] Please refer to the attached document. Figures 1-4 In this embodiment, the second sub-transfer module 42 includes a second movable base 421 and a second transfer arm 422. The second movable base 421 is movably connected to the top plate 121 and moves in the left-right direction to adjust its left-right position relative to the top plate 121. The second transfer arm 422 is connected to the second movable base 421 and moves back and forth between the second insertion module 33 and the conveyor line 20 as the second movable base 421 moves. The second transfer arm 422 is used to insert the electronic component to be inserted in the second insertion module 33 into the circuit board in the conveyor line 20, thereby realizing the automated insertion of the electronic component to be inserted into the circuit board in the conveyor line 20.
[0058] The second movable seat 421 and the first movable seat 411 are both connected to the same top plate 121 and are located at different positions on the top plate 121, thus avoiding mutual interference between the second movable seat 421 and the first movable seat 411.
[0059] Please refer to the attached document. Figures 1-4In this embodiment, the moving direction of the first movable seat 411 is perpendicular to the conveying direction of the conveying line 20; the first transfer arm 412 is movably connected to the first movable seat 411 and performs multi-axis movement relative to the first movable seat 411; so that the first transfer arm 412 can be transferred from the insert module 30 to the conveying line 20 in multiple directions, thereby improving the transfer flexibility of the first transfer arm 412.
[0060] The moving direction of the second movable seat 421 is perpendicular to the conveying direction of the conveyor line 20; the second transfer arm 422 is movably connected to the second movable seat 421 and performs multi-axis movement relative to the second movable seat 421, so that the second transfer arm 422 can be transferred from the insert module 30 to the conveyor line 20 in multiple directions, thereby improving the transfer flexibility of the second transfer arm 422.
[0061] A first moving module 413 and a second moving module 414 are connected between the first moving base 411 and the top plate 121. The first moving module 413 is arranged along the left-right direction of the top plate 121 and connected to the top plate 121. The second moving module 414 is arranged along the front-back direction of the top plate 121 and connected to the first moving module 413. The first moving base 411 is connected to the first moving module 413, so that the first moving base 411 can move back-forward and left-right relative to the top plate 121 under the action of the first moving module 413 and the second moving module 414, thereby realizing the movement of the first moving base 411 along multiple axes. Optionally, the first moving module 413 and the second moving module 414 are both guide rail moving modules.
[0062] Please refer to the attached document. Figures 1-5 The first transfer arm 412 includes a lifting seat 4121, an air nozzle 4122, and an air gripper 4123. The lifting seat 4121 is vertically connected to the first movable seat 411 and moves with the first movable seat 411. The air nozzle 4122 is connected to the lifting seat 4121 and moves vertically. The air gripper 4123 is connected to the air nozzle 4122 and is used to grip or release the electronic component to be inserted. This allows the electronic component to be inserted from the second insertion module 33 to the circuit board on the conveyor line 20. Optionally, the first transfer arm 412 is the same as the second transfer arm 422. The lifting seat 4121 moves up and down relative to the first movable seat 411 via a slide rail and a slider.
[0063] Please refer to the attached document. Figures 1-3 In this embodiment of the application, the frame assembly 100 further includes two display modules 50, which are distributed at the left and right ends of the outer shell and are located on the upper side of the corresponding opening 12a. The two display modules 50 are exposed on the outside of the outer frame 12 and are used for viewing by the user, ensuring the viewing effect of the user on the display modules 50, while making full use of the space at the left and right ends of the outer shell.
[0064] Please refer to the attached document. Figures 1-3 In this embodiment, two display modules 50 are electrically connected to corresponding insert modules 30, so that each display module 50 can display the status of its corresponding insert module 30. The two display modules 50 are located above the corresponding insert modules 30, and are arranged opposite each other along the left-right direction of the outer frame 12 to ensure the user's viewing experience.
[0065] In a second embodiment, a shaped insert includes a frame assembly 100, which is part of the shaped insert and is used to insert electronic components onto a circuit board.
[0066] Compared with the prior art, the beneficial effects of this utility model are:
[0067] This utility model provides a frame assembly 100 and an irregularly shaped insert component. The frame 10 includes a base 11 and an outer frame 12. The outer frame 12 is disposed on the upper side of the base 11 and arranged along the length direction of the base 11. The outer frame 12 has two openings 12a, which are arranged along the length direction of the outer frame 12 and connect to the conveying space in the base 11 in the left-right direction. The conveying space is opened in the middle of the outer frame 12. The frame 10 is arranged in a cuboid shape. A conveyor line 20 is installed on the base 11 and arranged relative to the conveying space. The conveyor line 20 is arranged in the front-back direction and is used to convey the circuit board to be inserted. Two insert modules 30 are respectively positioned relative to the base 11. Two openings 12a are arranged and positioned on both sides of the conveyor line 20; each insert module 30 is provided with a corresponding support 31, which is used to support the electronic component to be inserted; the transfer module 40 is positioned above the base 11 and between the two insert modules 30. The transfer module 40 can pass through the two support 31 and the conveyor line 20 and insert the electronic component to be inserted into the corresponding circuit board, so that the two insert modules 30 can act on one conveyor line 20, thus achieving a reasonable layout, improving the space utilization of the frame assembly 100, and at the same time, realizing the cuboid arrangement of the frame 10, reducing the width space occupied by the frame 10.
[0068] In the above embodiments, the descriptions of each embodiment have different focuses. For parts not described in detail in a certain embodiment, please refer to the relevant descriptions in other embodiments.
[0069] In the description of this application, 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 technical features indicated. Thus, features defined with "first" and "second" may explicitly or implicitly include one or more features.
[0070] This document uses specific examples to illustrate the principles and implementation methods of this application. The descriptions of the above embodiments are only for the purpose of helping to understand the methods and core ideas of this application. At the same time, for those skilled in the art, there will be changes in the specific implementation methods and application scope based on the ideas of this application. Therefore, the content of this specification should not be construed as a limitation of this application.
Claims
1. A frame assembly, characterized by, Applied to irregularly shaped inserts, the frame assembly includes: The frame includes a base and an outer frame; the outer frame is disposed on the upper side of the base and arranged along the length direction of the base; the outer frame has two openings, which are arranged along the length direction of the outer frame and connect to the conveying space located on the base in the left-right direction; the conveying space is opened in the middle of the outer frame; the frame is arranged in the shape of a cuboid. A conveyor line, installed on the base and arranged relative to the conveying space, is arranged along the front-back direction and is used to convey circuit boards to be inserted; Two insert modules are respectively arranged opposite to the two openings and are located on both sides of the conveyor line; each insert module is provided with a corresponding carrier for supporting the electronic component to be inserted. The transfer module is located above the base and between the two insertion modules. The transfer module can pass through the two carriers and the conveyor line and insert the electronic components to be inserted into the corresponding circuit board.
2. The frame assembly of claim 1, wherein, The insert module, the transfer module, and the other insert module are arranged sequentially along the left-right direction and along the length of the frame. The transfer direction of the electronic component to be inserted in the transfer module is a first direction, and the conveying direction of the conveyor line is a second direction. The first direction and the second direction are left-right and front-back directions, respectively.
3. The frame assembly of claim 2, wherein, The two insert modules are a first insert module and a second insert module; The transfer module includes a first sub-transfer module and a second sub-transfer module; the first sub-transfer module and the second sub-transfer module are arranged along the length of the frame and are spaced apart; The first sub-transfer module is located between the first insert module and the conveyor line, and inserts the electronic component to be inserted in the first insert module into the circuit board in the conveyor line. The second sub-transfer module is located between the second insert module and the conveyor line, and inserts the electronic components to be inserted in the second insert module into the circuit board in the conveyor line.
4. The frame assembly of claim 3, wherein The first sub-transfer module and the second sub-transfer module are located on the left and right sides of the conveyor line, respectively.
5. The frame assembly of claim 4, wherein, The outer frame is provided with a top plate, which is located above the base and supports the first sub-transfer module and the second sub-transfer module; The first sub-transfer module includes a first movable base and a first transfer arm. The first movable base is movably connected to the top plate and moves in the left-right direction. The first transfer arm is connected to the first movable base and moves back and forth between the first insertion module and the conveyor line as the first movable base moves. The first transfer arm is used to insert the electronic component to be inserted in the first insertion module into the circuit board in the conveyor line.
6. The frame assembly of claim 5, wherein, The second sub-transfer module includes a second movable base and a second transfer arm. The second movable base is movably connected to the top plate and moves in the left-right direction. The second transfer arm is connected to the second movable base and moves back and forth between the second insertion module and the conveyor line as the second movable base moves. The second transfer arm is used to insert the electronic component to be inserted in the second insertion module into the circuit board in the conveyor line. The second movable seat and the first movable seat are both connected to the same top plate and are located at different positions on the top plate.
7. The frame assembly of claim 6, wherein, The moving direction of the first movable seat is perpendicular to the conveying direction of the conveyor line; the first transfer arm is movably connected to the first movable seat and can move in multiple axes relative to the first movable seat. The second movable seat moves in a direction perpendicular to the conveying direction of the conveyor line; the second transfer arm is movably connected to the second movable seat and moves in multiple axes relative to the second movable seat.
8. The frame assembly of claim 1, wherein, The frame assembly also includes two display modules, which are distributed at the left and right ends of the outer shell and are located above the corresponding openings; The two display modules are exposed outside the outer frame and are used for user viewing.
9. The frame assembly of claim 8, wherein, The two display modules are electrically connected to their respective insert modules; The two display modules are located on top of the corresponding insert modules, and the two display modules are arranged opposite each other along the left and right direction of the outer frame.
10. A profiled tab member, characterized by Includes the frame assembly as described in any one of claims 1 to 9.