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EP-4736710-A1 - NON-PLANAR MODULAR DESKTOP SYSTEM

EP4736710A1EP 4736710 A1EP4736710 A1EP 4736710A1EP-4736710-A1

Abstract

The utility model discloses a non-planar modular desktop system that comprises a desk body, a plurality of module bases, a covering component, a controller and an electrical wiring system. The module bases slide up and down or rotate relative to the desk body under the action of a driving mechanism. The covering component is designed to cover grooves and notches on the desk body that are compatible with the module base, and the electrical wiring system is installed on the back of the desk body. In the utility model, the module bases can be concealed beneath the desktop, keeping the desktop clean and tidy while reducing the time required for tidying; the module bases can accommodate various functional modules, and the covering component covers the grooves and the notches, transforming the desktop into a flat surface suitable for multiple uses.

Inventors

  • WANG, YI
  • Wang, Huanzhi

Assignees

  • Wang, Yi

Dates

Publication Date
20260506
Application Date
20251027

Claims (10)

  1. A non-planar modular desktop system, comprising a desk body, a plurality of module bases and a driving mechanism, wherein the module bases are connected to the desk body, and the driving mechanism drives the module bases to move relative to the desk body to switch between a working state and a concealed state; in the working state, the module bases move above the desktop of the desk body; in the concealed state, the module bases move below the desktop of the desk body for concealing.
  2. The non-planar modular desktop system according to claim 1, wherein the module base comprises a standard module base and a dedicated module base, the standard module base can accommodate various functional modules, and the dedicated module base is used to install corresponding equipment or dedicated functional modules; the driving mechanism comprises a standard base driving mechanism and a dedicated base driving mechanism; a sliding block is connected to the bottom of the dedicated module base, a guide rail matched with the sliding block is fixed to the desk body, and the dedicated base driving mechanism drives the dedicated module base to slide along the guide rail.
  3. The non-planar modular desktop system according to claim 2, wherein the dedicated base driving mechanism comprises an electric push rod arranged parallel to the guide rail, one end of the electric push rod is connected to the bottom of the module base, and the other end thereof is connected to the desk body.
  4. The non-planar modular desktop system according to claim 3, wherein the standard module base driving mechanism comprises an electric push rod arranged parallel to the guide rail, one end of the electric push rod is connected to the bottom of the standard module base, and the other end thereof is connected to the desk body.
  5. The non-planar modular desktop system according to claim 3, wherein the top rear edge of the standard module base is hinged to the desk body, and the standard base driving mechanism drives the standard base to rotate up and down relative to the desk body.
  6. The non-planar modular desktop system according to claim 5, wherein the longitudinal section of the standard module base is fan-shaped, and the standard base driving mechanism comprises an electric push rod, with one end hinged to the lower rear part of the standard module base and the other end hinged to the desk body.
  7. The non-planar modular desktop system according to claim 3, wherein the standard base driving mechanism is a spring self-locking component, comprising a spring, a guide groove and a locking hook; the spring is sleeved on the guide rail and drives the module base to move upward; one end of the locking hook is hinged to the desk body and can rotate left and right around the guide groove, while the other end is slidably connected to the guide groove to limit the movement of the module base; the upper end of the guide groove is a heart-shaped segment, with its lower end connected to a straight segment; a non-return boss is arranged at a point in the heart-shaped segment where the locking hook can slide back.
  8. The non-planar modular desktop system according to claim 1, also includes a covering component, which is used to cover grooves and notches on the desk body that are compatible with the module bases.
  9. The non-planar modular desktop system according to claim 8, wherein a display covering component comprises a display cover plate hinged to the desktop through an automatic reset hinge; a keyboard covering component comprises a keyboard cover plate compatible with the notches of a keyboard base; a concave groove sliding rail set is fixed to the back of the desktop and consists of left and right concave groove sliding rails with the same shape; the left and right concave groove sliding rails are staggered along the left and right sides of the keyboard cover plate; the front ends of the left and right concave groove sliding rails respectively correspond to the left front and right rear ends of the keyboard cover plate; downwardly bent arc-shaped rails are located at the front ends of the left and right concave groove sliding rails, and horizontal rails are located at the middle and rear sections; the left front and right rear ends of the keyboard cover plate are fixedly connected to L-shaped sliding blocks, the upper ends of the L-shaped sliding blocks are fixedly connected to the keyboard cover plate, while the lower ends are slidably connected to the concave groove sliding rail set; the bottom end of the electric push rod for the keyboard covering component is hinged to a support, and the top end is hinged to the rear of the keyboard cover plate.
  10. The non-planar modular desktop system according to claim 1, also includes a controller that is electrically and signal-connected to the module bases.

Description

Technical Field The utility model relates to the technical field of office supplies, particularly to a non-planar modular desktop system. Background Art Traditional office desktops are typically designed as a single flat structure. Although they meet basic office needs, they present several limitations when meeting personalized demands from different users and complex office scenarios. First, conventional office desks lack the flexibility to adapt to different job requirements. When operating devices such as computers, laptops, or displays, users often need additional desktop accessories or stands, which can lead to inefficient use of desktop space. Second, various items tend to pile up on the desk, necessitating frequent tidying; otherwise, the desktop appears cluttered and disorganized. Moreover, tangled cables can compromise the neatness of the office environment and reduce work efficiency. Summary of the Utility Model To solve the problems in the prior art, the utility model provides a non-planar modular desktop system. To solve the above technical problems, the utility model adopts the following technical proposal: A non-planar modular desktop system comprises a desk body, a plurality of module bases and a driving mechanism, wherein the module bases are connected to the desk body, and the driving mechanism drives the module bases to move relative to the desk body, allowing them to switch between the working state and the concealed state. In the working state, the module bases move above the desk body's desktop. In the concealed state, the module bases move below the desk body's desktop for concealing. Further, the module base comprises a standard module base and a dedicated module base. The standard module base can accommodate different functional modules, while the dedicated module base is used to install corresponding equipment or dedicated functional modules. The driving mechanism comprises a standard base driving mechanism and a dedicated base driving mechanism. A sliding block is connected to the bottom of the dedicated module base, and a guide rail matched with the sliding block is fixed on the desk body. The dedicated base driving mechanism drives the dedicated module base to slide along the guide rail. Further, the dedicated base driving mechanism comprises an electric push rod arranged parallel to the guide rail, with one end of the electric push rod connected to the bottom of the module base, and the other end thereof connected to the desk body. Further, the standard module base driving mechanism comprises an electric push rod arranged in parallel to the guide rail, with one end of the electric push rod connected to the bottom of the standard module base, and the other end connected to the desk body. Further, the top rear edge of the standard module base is hinged to the desk body, allowing the standard base driving mechanism to rotate the standard base up and down relative to the desk body. Further, the longitudinal section of the standard module base is fan-shaped, and the standard base driving mechanism comprises an electric push rod, with one end hinged to the lower rear part of the standard module base and the other end hinged to the desk body. Further, the standard base driving mechanism has a spring self-locking component, which comprises a spring, a guide groove and a locking hook. The spring is sleeved on the guide rail and drives the module base to move upward. One end of the locking hook is hinged to the desk body and can rotate left and right around the guide groove, while the other end is slidably connected to the guide groove to limit the movement of the module base. The upper end of the guide groove forms a heart-shaped segment, with the lower end connected to a straight segment. A non-return boss is arranged at the point in the heart-shaped segment where the locking hook can slide back. Further, the non-planar modular desktop system further comprises a covering component, which is used to cover grooves and notches on the desk body that are compatible with the module bases. Further, the display covering component comprises a display cover plate, which is hinged to the desktop via an automatic reset hinge. The keyboard covering component comprises a keyboard cover plate compatible with the notches of a keyboard base. A concave groove sliding rail set is fixed to the back of the desktop and consists of left and right concave groove sliding rails of identical shape. The left and right concave groove sliding rails are staggered along the left and right sides of the keyboard cover plate, with the front ends of the left and right concave groove sliding rails respectively corresponding to the left front and right rear ends of the keyboard cover plate. Downwardly bent arc-shaped rails are located at the front ends of the left and right concave groove sliding rails, while horizontal rails are located at the middle and rear sections. The left front and right rear ends of the keyboard cov