A paperless conference table

Abstract

This utility model relates to the field of conference table technology. It discloses a paperless conference table, comprising a table body, a tabletop on top of the table body, a through-hole for cable management below the tabletop, a hollow cavity below the tabletop, at least four through-holes in the tabletop, and at least four table legs below the table body; a secondary table, positioned above the table body, comprising a secondary tabletop and at least four lifting rods positioned below the secondary tabletop, the lifting rods extending through the through-holes into the cavity of the table body; and a drive assembly, comprising a drive component and drive rods, with an abutment plate at one end of each lifting rod connected to the at least four lifting rods. This utility model conference table offers multiple advantages: the secondary table achieves flexible height adjustment through the drive assembly and lifting rods, and after being embedded in the fixing groove, it forms a uniform plane with the main tabletop, balancing flexibility and stability; the secondary table features a sliding groove with detachable storage components, achieving concealed storage through T-slots, and integrating cables to keep the desktop tidy.

Description

Technical Field

[0001] This utility model relates to the field of conference table technology, and in particular to a paperless conference table. Background Technology

[0002] With the popularization of digital office work, paperless meetings are gradually becoming the mainstream, placing higher demands on the functionality, intelligence, and space utilization of meeting tables. Traditional meeting tables are mostly one-piece structures with fixed heights, which are difficult to meet the usage needs of participants of different heights and cannot flexibly adapt to diverse meeting scenarios such as standing discussions and seated note-taking, resulting in a poor user experience. In addition, electronic devices commonly used in paperless meetings, such as laptops, tablets, wireless keyboards and mice, and their associated cables lack systematic storage design, easily leading to problems such as cluttered desktops and tangled cables. This not only affects the cleanliness of the meeting environment but may also cause safety hazards such as tripping hazards and interface damage due to exposed cables. Although existing height-adjustable meeting tables can adjust the height of certain parts, they generally suffer from insufficient structural stability and conflicts between storage space and desktop functional areas. Meeting tables with storage functions often use exposed drawers or brackets, which not only occupy limited desktop space but also cannot match the high-frequency use needs of electronic devices. At the same time, traditional meeting tables lack integrated charging solutions, requiring participants to bring their own charging cables and find sockets, making device battery management inconvenient and further affecting meeting efficiency. Utility Model Content

[0003] To address the shortcomings of existing technologies, this utility model discloses a paperless conference table that can balance high adjustability, concealed storage function, equipment compatibility, and operational safety.

[0004] This utility model discloses a paperless conference table, which includes a table body, a tabletop on the top of the table body, a through-hole for cable routing below the tabletop, a hollow cavity below the tabletop, at least four through-holes in the tabletop, and at least four table legs below the table body; a sub-table, which is located above the table body and includes a sub-tabletop and at least four lifting rods located below the sub-tabletop, with the at least four lifting rods extending into the cavity of the table body through the through-holes, and through-holes in the sub-tabletop; and a drive assembly, which includes a drive member located on one side of the cavity of the table body and drive rods located on the drive member, with an abutment plate fixedly installed on the end of the lifting rod away from the drive member, and the abutment plate connected to the at least four lifting rods.

[0005] Furthermore, the table body is provided with an inwardly recessed table body fixing groove that corresponds to the side table.

[0006] Furthermore, a recessed sliding groove is provided below the sub-table, with one end of the sliding groove penetrating the sub-table. The side of the sub-table through which the sliding groove penetrates is magnetized. Below the sub-table are detachable storage components and secondary storage components. The storage components have through holes corresponding to the holes in the sub-table. The storage components and secondary storage components are hollow inside and extend to one side. A through wire harness guide groove is provided on one side of each of the storage components and secondary storage components. The storage components have an outwardly protruding storage protrusion for sliding within the sliding groove. The secondary storage components have an outwardly protruding secondary storage protrusion 1241 for sliding within the sliding groove. Magnetic attraction parts are provided at the ends of the storage protrusions and secondary storage protrusions 1241 near the penetrating end of the sliding groove on the sub-table.

[0007] Furthermore, the width of the sliding groove increases sequentially from bottom to top.

[0008] Furthermore, the sliding groove is T-shaped, and the shapes of the storage protrusion and the secondary storage protrusion 1241 correspond to the shape of the sliding groove.

[0009] Furthermore, taking the plane where the secondary table is located as the horizontal plane, the extension direction of the storage unit is the extension direction of the storage unit, the extension direction of the secondary storage unit is the extension direction of the secondary storage unit, the angle between the extension direction of the storage unit and the horizontal plane is greater than or equal to 5 degrees and less than or equal to 20 degrees, and the angle between the extension direction of the secondary storage unit and the horizontal plane is greater than or equal to 5 degrees and less than or equal to 20 degrees.

[0010] Furthermore, a wireless charging coil is built into the upper part of the table.

[0011] Beneficial effects:

[0012] This utility model features a height-adjustable and scene-adaptive drive component for the conference table. This component, working in conjunction with the lifting rod, allows for flexible height adjustment of the secondary table, meeting the diverse needs of users of different heights and improving human-computer interaction comfort. The secondary table, embedded in the table's fixing slot, forms a unified plane with the main tabletop, combining lifting flexibility with overall structural stability, avoiding the wobbling or gap issues of traditional height-adjustable tables. The secondary table also features concealed storage and space optimization. A sliding groove beneath the secondary table, combined with detachable storage components, accommodates peripherals such as keyboards and mice. The T-shaped groove structure and gradually widening design allow for easy access when needed and concealment when not in use. This frees up desktop space to accommodate electronic devices and integrates cables through cable management channels. Combined with cable management holes in the table, all cables are hidden, meeting the cleanliness requirements of paperless offices. The hollow cavity and fixing slot design reduce exposed parts and enhance the aesthetic appeal of the industrial design. Operational safety and equipment protection: The tilt angle of the storage unit utilizes gravity to restrain the equipment, preventing slippage due to vibration or accidental touch, making it especially suitable for the stable storage of wireless peripherals. The T-shaped sliding groove and wide, gradually changing structure form a three-dimensional limit, preventing storage items from falling off or shifting, ensuring structural reliability during high-frequency operation. The fixed groove reduces protrusions at the edge of the side table, lowering the risk of collision and conforming to ergonomic safety design. Multifunctional integration and high efficiency: Deeply integrated with functions such as height adjustment, concealed storage, and wireless charging, catering to diverse needs such as meeting presentations, data entry, and device battery life. Structural optimization reduces the operational burden on participants, helping to build an efficient and intelligent paperless meeting environment. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the structure of a conference table in one embodiment of this application.

[0014] Figure 2 for Figure 1 Enlarged diagram of point A in the middle.

[0015] Figure 3 This is a cross-sectional structural diagram of a conference table in one embodiment of this application.

[0016] In the diagram: conference table 100, table body 11, tabletop 111, table legs 112, side table 12, side tabletop 121, lifting rod 122, storage component 123, storage protrusion 1231, secondary storage component 124, secondary storage protrusion 1241, magnetic suction part 125, drive assembly 13, drive component 131, drive rod 132, and abutment plate 133. Detailed Implementation

[0017] To enable those skilled in the art to better understand the present invention, the technical solutions in the specific embodiments of the present invention will be clearly and completely described below.

[0018] This application discloses a paperless conference table 100, which includes a table body 11, a tabletop 111 on the top of the table body 11, a through-hole for cable management on the bottom of the tabletop 111, a hollow cavity below the tabletop 111, at least four through-holes in the table body 111 through the cavity, at least four table legs 112 below the table body 11, and a secondary table 12 disposed above the table body 11. The secondary table 12 can be used to place a display screen, etc. The secondary table 12 includes a secondary tabletop 121 and a secondary table seat 121 disposed above the table body 11. At least four lifting rods 122 are located below the sub-table 121. These rods pass through the through-holes in the table body 11 and extend into the cavity of the table body 11. A through-hole (sub-table 12) is provided on the sub-table 121. A drive assembly 13 is included, comprising a drive member 131 located on one side of the cavity of the table body 11 and drive rods 132 mounted on the drive member 131. An abutment plate 133 is fixedly mounted on the end of each lifting rod 122 away from the drive member 131, and the abutment plate 133 is connected to the at least four lifting rods 122. The sub-table 12 on the conference table 100 of this application is used to place a display screen, allowing for flexible height adjustment of the display screen without occupying too much desktop space. The display screen's wiring harness extends into the cavity of the table body 11 through the through-hole (sub-table 12) and the cable management hole in the table body 11, and is connected to a power cord located within the cavity of the table body 11 for power supply. When the height of the secondary table 12 needs to be adjusted, the drive component 131 in the drive assembly 13 of the conference table 100 of this application is activated, driving the drive rod 132 to move. The movement of the drive rod 132 is transmitted to the abutment plate 133. Since the abutment plate 133 is connected to at least four lifting rods 122, it pushes the lifting rods 122 to move vertically in the through hole of the table body 11. Because the abutment plate 133 abuts against at least four lifting rods 122 for raising and lowering, at least four lifting rods 122 rise and fall synchronously, greatly reducing the swaying of the secondary table 12 and enhancing the stability of the secondary table 12. The raising and lowering of the lifting rods 122 drives the secondary table board 121 to rise and fall synchronously, realizing the adjustment of the height of the secondary table 12. The hollow cavity under the table board 111 provides space for the movement of the lifting rods 122, and the cable hole can be used to organize the cables connecting the drive assembly 13, mouse, keyboard, etc., to ensure smooth operation of the internal structure. The drive component 131 is a motor, which is one of a stepper motor, servo motor, or DC motor. The motor converts rotary motion into linear motion of the drive rod 132 through a transmission mechanism such as gears, racks, or worm gears. The drive rod 132 is a transmission component connecting the drive device and the display screen mounting plate. Its main function is to transmit driving force, drive the display screen to rise and fall along the guide rail, and achieve multiple limit positions and stable support through structural design. The conference table 100 of this application has many advantages. On the one hand, through the cooperation of the drive assembly 13 and the lifting rod 122, the height of the auxiliary table 12 can be flexibly adjusted according to the needs of the participants, meeting the needs of users of different heights or adapting to diverse meeting scenarios, such as standing discussions or sitting writing, thus improving user comfort.On the other hand, the hollow cavity design and cable management holes of the table body 11 effectively organize and store cables, keeping the desktop neat and aesthetically pleasing, which aligns with the concept of paperless office. Simultaneously, the structure of at least four lifting rods 122 connected by the abutment plate 133 ensures even force distribution on the auxiliary table 12, making the lifting process smooth and reliable, enhancing the stability and durability of the conference table 100, and providing excellent hardware support for efficient meetings. The power cord is integrated within the table body 11 and electrically connected to the drive unit 131, with the other end of the power cord extending through to the outside of the table body 11 to connect to an external power source.

[0019] As one implementation method, the table body 11 is provided with an inwardly recessed table body 11 fixing groove corresponding to the secondary table 12. The secondary table 12 can be lowered and inserted into the table body 11 fixing groove. After the secondary table 12 is inserted into the fixing groove, its secondary tabletop 121 and the tabletop 111 of the table body 11 form a uniform plane. This saves space above the desktop and avoids the height difference or edge protrusions that may occur with traditional lifting structures, maintaining a clean and aesthetically pleasing desktop and adapting to the need for flat use of electronic devices in paperless meetings. Specifically, the depth of the table body 11 fixing groove can be set according to requirements. When it is necessary to store the storage item 123 and the secondary storage item 124, a suitable depth can be set. When only the secondary table 12 needs to be stored, only the secondary table 12 and the wiring harness need to be considered; the storage item 123 and the secondary storage item 124 can be removed during use.

[0020] In one embodiment, a recessed sliding groove is provided below the secondary table 12, with one end of the sliding groove penetrating through the secondary table 12. The side of the secondary table 12 through which the sliding groove penetrates is magnetized. Below the secondary table 12, a detachable storage component 123 and a secondary storage component 124 are provided. The storage component 123 has a through hole corresponding to the hole in the secondary table 12. Both the storage component 123 and the secondary storage component 124 are hollow and penetrate to one side. Each of the storage unit 123 and the secondary storage unit 124 has a through-type wire harness guide groove on one side. The storage unit 123 has an outwardly protruding storage protrusion 1231 for sliding within the sliding groove. The secondary storage unit 124 has an outwardly protruding secondary storage protrusion 12411231 for sliding within the sliding groove. Magnetic suction parts 125 are provided at the ends of the storage protrusions 1231 and 12411231 near the through-type sliding groove on the secondary table 12. The sliding groove under the secondary table 12, combined with the detachable storage unit 123 and the secondary storage unit 124, provides multiple practical advantages. On the one hand, the features of partitioned storage and flexible access are prominent: storage unit 123 and secondary storage unit 124 are designed for the keyboard and mouse respectively, with hollow structures providing dedicated storage space to prevent devices from being exposed and occupying the desktop, keeping the conference table 100 tidy; the cooperation between the storage protrusion 1231 and the sliding groove allows the storage unit 123 to slide freely under the secondary table 12. Users can decide whether or not to install the storage unit 123 and secondary storage unit 124 as needed, removing them when not in use and installing them when needed. The detachable design also facilitates later maintenance; if cleaning or replacement of parts is required, simply remove the storage unit 123, balancing convenience and durability. The cable management channels of storage unit 123 and secondary storage unit 124 have through openings, allowing power cords and signal cables of the keyboard and mouse to pass through, preventing cable tangling and mess. Combined with the cable management holes on the table 11, the cables are guided into the cavity beneath the table 11, achieving fully concealed cable management that meets the tidiness requirements of paperless meetings. The magnetic attachment 125 is used to secure the storage compartment and secondary storage unit 124 to the secondary table 12.

[0021] In one implementation, the width of the sliding groove increases progressively from bottom to top. The sliding groove is T-shaped, and the shapes of the storage protrusion 1231 and the auxiliary storage protrusion 1241 correspond to the shape of the sliding groove. The narrow lower section vertically limits the storage protrusion 1231, preventing the storage item 123 from falling vertically out of the groove due to gravity or sliding inertia; the wide upper section provides lateral movement space for the protrusion, allowing the storage item 123 to slide smoothly horizontally along the groove, thus meeting the dual requirements of preventing it from falling out and allowing it to slide without obstruction.

[0022] In one implementation, the plane where the secondary table 12 is located is taken as the horizontal plane. The extension direction of storage component 123 is the extension direction of storage component 123, and the extension direction of secondary storage component 124 is the extension direction of secondary storage component 124. The angle between the extension direction of storage component 123 and the horizontal plane is greater than or equal to 5 degrees and less than or equal to 20 degrees, and the angle between the extension direction of secondary storage component 124 and the horizontal plane is greater than or equal to 5 degrees and less than or equal to 20 degrees. The tilt angle allows the keyboard and mouse to naturally fit against the inner wall of storage component 123 when stored. The component of gravity is used to stably restrain the items within the storage space. The key surface of the keyboard or the grip surface of the mouse forms a non-slip contact with the bottom surface of the tilted storage slot. Even if the conference table 100 vibrates due to movement, or if the user touches the table body 11, the items are not likely to slide out due to inertia. This design is suitable for storing lightweight peripherals with smooth bottoms, such as wireless keyboards and mice, avoiding the accidental falling problem caused by the lack of restraints in traditional horizontal storage slots, and ensuring that the devices are always safely stored during the meeting. A slight tilt angle of 5°-20° ensures the stability of stored items without obstructing access. Users can easily reach the tilted keyboard and mouse with a simple raise of their hand, aligning with the natural angle of the arm when seated, reducing the need for bending over or overextending the arm. Simultaneously, the slightly angled opening of the storage space towards the user exposes the edges of devices, making them easier to identify and grasp, such as the edges of the keyboard and the grip grooves of the mouse, improving blind retrieval efficiency. This design, while ensuring anti-drop functionality, optimizes the human-computer interaction experience, making it more convenient and efficient for participants to frequently access peripherals, especially suitable for meeting scenarios requiring frequent use of the keyboard and mouse for presentations and note-taking.

[0023] As one implementation method, a wireless charging coil is built into the upper part of the table 11. This built-in wireless charging coil provides participants with convenient and efficient device power support: no need to carry additional charging cables, devices supporting wireless charging such as mobile phones, tablets, and wireless mice can be automatically charged simply by placing them in the designated area of ​​the desktop, avoiding tangled cables and keeping the desktop clean and tidy, meeting the minimalist office needs of paperless meetings; at the same time, the hidden charging coil design is integrated seamlessly with the table 11, not only saving space but also achieving safe and stable energy transmission through electromagnetic induction technology, reducing the loss and failure risk of exposed interfaces, improving the continuity and comfort of meeting equipment use, and suitable for continuous power supply of various electronic devices during long meetings, contributing to efficient office work.

[0024] It should be understood that those skilled in the art can make improvements or modifications based on the above description, and all such improvements and modifications should fall within the protection scope of the appended claims.

Claims

1. A paperless conference table, characterized in that, include: The table body includes a tabletop on top, a through-hole for cable routing below the tabletop, a hollow cavity below the tabletop, at least four through-holes in the tabletop, and at least four table legs below the table body. A secondary table is located above the main table. The secondary table includes a secondary table board and at least four lifting rods located below the secondary table board. The at least four lifting rods extend into the cavity of the main table through the through hole in the main table. The secondary table board is provided with a through hole. The drive assembly includes a drive component disposed on one side of the cavity of the table body and a drive rod disposed on the drive component. An abutment plate is fixedly disposed on the end of the lifting rod away from the drive component, and the abutment plate is connected to at least four lifting rods.

2. The paperless conference table according to claim 1, characterized in that: The table body is provided with an inwardly recessed table body fixing groove that corresponds to the side table.

3. A paperless conference table according to claim 1, characterized in that: The lower part of the side table has an inwardly recessed sliding groove, one end of which passes through the side table, and the side of the side table through which the sliding groove passes is magnetized. Below the side table are detachable storage components and secondary storage components. The storage components have through holes that correspond to the holes in the side table. Both the storage components and secondary storage components are hollow and extend to one side. Each of the storage components and secondary storage components has a through wire harness guide groove. The storage components have outward-protruding storage protrusions on top for sliding in a sliding groove. The secondary storage components also have outward-protruding secondary storage protrusions on top for sliding in a sliding groove. The ends of the storage protrusions and secondary storage protrusions near the sliding grooves on the side table are equipped with magnetic suction.

4. A paperless conference table according to claim 3, characterized in that: The width of the sliding groove increases from bottom to top.

5. A paperless conference table according to claim 3, characterized in that: The sliding groove is T-shaped, and the shapes of the storage protrusion and the secondary storage protrusion correspond to the shape of the sliding groove.

6. A paperless conference table according to claim 3, characterized in that: With the plane where the secondary table is located as the horizontal plane, the extension direction of the storage unit is the extension direction of the storage unit, the extension direction of the secondary storage unit is the extension direction of the secondary storage unit, the angle between the extension direction of the storage unit and the horizontal plane is greater than or equal to 5 degrees and less than or equal to 20 degrees, and the angle between the extension direction of the secondary storage unit and the horizontal plane is greater than or equal to 5 degrees and less than or equal to 20 degrees.

7. A paperless conference table according to claim 1, characterized in that: The upper part of the table has a built-in wireless charging coil.

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