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CN-224219708-U - Desktop mounting structure, integrated power supply system and integrated power supply desk

CN224219708UCN 224219708 UCN224219708 UCN 224219708UCN-224219708-U

Abstract

The embodiment of the application discloses a desktop mounting structure, an integrated power supply system and an integrated power supply desk, wherein the desktop mounting structure comprises a mounting frame, a first electric connection terminal and a second electric connection terminal, the mounting frame comprises a mounting cavity, and the mounting cavity comprises a first mounting cavity and a second mounting cavity; the first electric connecting terminal is arranged on the bottom wall and is positioned in the first mounting cavity, the first direct current output component is electrically connected with the first electric connecting terminal when being mounted in the first mounting cavity, the second electric connecting terminal is arranged on the bottom wall and is positioned in the second mounting cavity, and the first alternating current output component is electrically connected with the second electric connecting terminal when being mounted in the second mounting cavity. The installation piece can be fixed in the desktop with the installing frame, and the desktop can not take place to remove usually, therefore first power supply module and second power supply module can not pull the electric wire because of removing, and the security is better.

Inventors

  • XIE WEI
  • XIONG YAO
  • Tian Xincan

Assignees

  • 安克创新科技股份有限公司

Dates

Publication Date
20260512
Application Date
20250227

Claims (17)

  1. 1. A desktop mounting structure, comprising: The mounting frame is used for being mounted on a tabletop of the tabletop body and comprises a bottom wall, a plurality of side walls, a mounting cavity formed by enclosing the bottom wall and the side walls and a top opening communicated with the mounting cavity, wherein the mounting cavity comprises a first mounting cavity for mounting an external first direct current output assembly and a second mounting cavity for mounting the external first alternating current output assembly; The first electric connection terminal is arranged on the bottom wall and positioned in the first installation cavity and is used for being connected with an external power supply module to receive power supply input, and when the first direct current output assembly is installed in the first installation cavity, the first direct current output assembly is electrically connected with the first electric connection terminal; the second electric connection terminal is arranged on the bottom wall and positioned in the second installation cavity and is used for being connected with the power supply module to receive power supply input, and the first alternating current output assembly is electrically connected with the second electric connection terminal when being installed in the second installation cavity.
  2. 2. The table top mounting structure of claim 1, wherein the table top mounting structure further comprises: The installation piece comprises a first connecting plate parallel to the desktop and a plurality of second connecting plates parallel to a plurality of side walls respectively, wherein the first connecting plate is connected with the second connecting plates, the first connecting plate is used for being fixedly connected with the desktop, the second connecting plates are respectively used for being fixedly connected with the corresponding side walls, and the installation piece is used for fixing the installation frame on the desktop.
  3. 3. The desktop mounting structure of claim 1, wherein a partition is disposed inside the mounting frame, wherein a top height of the partition is lower than a top height of the mounting frame, wherein the partition divides the mounting frame into the first mounting cavity and the second mounting cavity, wherein the partition is configured to guide the first dc output assembly into the first mounting cavity and the first ac output assembly into the second mounting cavity.
  4. 4. An integrated power supply system, comprising: at least two desktop mounting structures as claimed in any one of claims 1-3; the first power supply assembly comprises a first direct current output assembly and a first alternating current output assembly, the first direct current output assembly is electrically connected with the first electric connection terminal of the desktop mounting structure after being placed in one of the desktop mounting structures, and the first alternating current output assembly is electrically connected with the second electric connection terminal of the desktop mounting structure; A second power supply assembly including another first DC output assembly and another first AC output assembly, the second power supply assembly being disposed in another desktop mounting structure, the other first DC output assembly being electrically connected to another first electrical connection terminal of the other desktop mounting structure, the other first AC output assembly being electrically connected to another second electrical connection terminal of the other desktop mounting structure, and The power supply module is electrically connected with the two first electric connecting terminals and the two second electric connecting terminals, the power supply module is electrically connected with the first power supply assembly through one of the first electric connecting terminals and the second electric connecting terminal corresponding to the first electric connecting terminal, and the power supply module is electrically connected with the second power supply assembly through the other of the first electric connecting terminals and the other of the second electric connecting terminals corresponding to the first electric connecting terminals.
  5. 5. The integrated power supply system according to claim 4, wherein the table body is provided with a receiving groove, the receiving groove is concave relative to a top surface of the table body, and the mounting frame is disposed in the receiving groove.
  6. 6. The integrated power supply system of claim 4, wherein the first DC output assembly comprises a first housing, a first DC transformer module disposed within the first housing, and a first locking mechanism disposed within the first housing, the first DC transformer module being electrically connected to the first electrical connection terminal after the first DC output assembly is disposed within the first mounting cavity, the first locking mechanism being capable of positive engagement with the mounting frame to lock the first housing relative to the mounting frame, and/or The first alternating current output assembly comprises a second shell, a first inversion module arranged in the second shell and a second locking mechanism arranged in the second shell, after the first alternating current output assembly is placed in the second installation cavity, the first inversion module is electrically connected with the second electric connection terminal, and the second locking mechanism can be in limit fit with the installation frame so that the second shell is locked relative to the installation frame.
  7. 7. The integrated power supply system of claim 6 wherein the first dc output assembly further comprises a first handle rotatably disposed on the first housing and cooperatively connectable to the first locking mechanism, wherein the first handle rotates to stand up relative to the first housing, the first housing is unlocked relative to the mounting frame, the first handle rotates to engage relative to the first housing, the first housing is locked relative to the mounting frame, and/or The first alternating current output assembly further comprises a second lifting handle which is rotatably arranged on the second shell and can be matched and connected with the second locking mechanism, wherein the second shell is unlocked relative to the mounting frame when the second lifting handle is rotated to be vertical relative to the second shell, and the second shell is locked relative to the mounting frame when the second lifting handle is rotated to be attached relative to the second shell.
  8. 8. The integrated power supply system of claim 7, wherein the first locking mechanism comprises: The first rotating shaft is rotatably arranged in the first shell, a first external thread is arranged on the peripheral wall of the first rotating shaft, and the rotating part of the first lifting handle extends into the first shell and is connected with the first rotating shaft; the first lock tongue is arranged in the first shell in a sliding way along the axial direction of the first rotating shaft and is used for locking with the mounting frame; the first transmission piece is provided with a first screw hole, the hole wall of the first screw hole is provided with a first internal thread, the first rotating shaft is rotatably arranged in the first screw hole, the first external thread is connected with the first internal thread in a matched manner, and the first transmission piece can drive the first lock tongue to move when the first rotating shaft rotates; wherein the first handle is rotated to be raised relative to the first shell, the first lock tongue is retracted in the first shell and is released from the mounting frame, the first handle is rotated to be attached relative to the first shell, the first lock tongue extends out of the first shell and is locked with the mounting frame, and/or The second locking mechanism includes: The second rotating shaft is rotatably arranged in the second shell, a second external thread is arranged on the peripheral wall of the second rotating shaft, and the rotating part of the second handle extends into the second shell and is connected with the second rotating shaft; the second lock tongue is arranged in the second shell in a sliding way along the axial direction of the second rotating shaft and is used for locking with the mounting frame; The second transmission piece is provided with a second screw hole, the hole wall of the second screw hole is provided with a second internal thread, the second rotating shaft is rotatably arranged in the second screw hole, the second external thread is connected with the second internal thread in a matched manner, and the second transmission piece can drive the second lock tongue to move when the second rotating shaft rotates; Wherein when the second handle rotates to stand up relative to the second shell, the second lock tongue is retracted in the second shell and is released from the mounting frame, when the second handle rotates to be attached to the second shell, the second lock tongue extends out of the second shell and is locked with the mounting frame.
  9. 9. The integrated power supply system of claim 6, wherein the first dc output assembly further comprises a first handle, and The first handle is rotatably arranged on the top of the side wall of the first shell, and/or When the first handle is attached relative to the first shell, a first avoiding space for rotating the first handle is arranged between the first handle and the first shell, and/or When the first handle is attached relative to the first shell, the first handle is flush with the top wall of the first shell.
  10. 10. The integrated power supply system of claim 6, wherein the first ac output assembly further comprises a second handle, and The second handle is rotatably arranged on the top of the side wall of the second shell and/or When the second handle is attached relative to the second shell, a second avoiding space for rotating the second handle is arranged between the second handle and the second shell, and/or The second handle is flush with the top wall of the second housing when the second handle is attached relative to the second housing.
  11. 11. The integrated power supply system according to claim 6, wherein the first locking mechanism is provided corresponding to one of the side walls of the mounting frame, and/or The second locking mechanism is arranged corresponding to one of the side walls of the mounting frame.
  12. 12. The integrated power supply system of claim 6 further comprising a flex cable assembly disposed in the first mounting cavity, the flex cable assembly being removably electrically connected to the first dc output assembly, the flex cable assembly comprising at least one data cable and a flex structure supporting the at least one data cable, the at least one data cable being electrically connected to the first dc voltage transformation module when the flex cable assembly is electrically connected to the first dc output assembly, wherein the data cable comprises at least one dc output interface disposed external to the flex cable assembly.
  13. 13. The integrated power supply system of claim 12, wherein the flex cable assembly further comprises a third housing and a third locking mechanism disposed on the third housing, the third locking mechanism being capable of positive engagement with one of the side walls of the mounting frame to lock the third housing relative to the mounting frame.
  14. 14. The integrated power supply system of claim 13, wherein the flex cable assembly further comprises a third handle rotatably disposed within the third housing and cooperatively connectable to the third locking mechanism, wherein the third handle rotates to stand up relative to the third housing, wherein the third housing is unlocked relative to the mounting frame, and wherein the third handle rotates to engage relative to the third housing, wherein the third housing is locked relative to the mounting frame.
  15. 15. The integrated power supply system of claim 14, wherein the third locking mechanism comprises: The third rotating shaft is rotatably arranged in the third shell, a third external thread is arranged on the peripheral wall of the third rotating shaft, and the rotating part of the third handle extends into the third shell and is connected with the third rotating shaft; The third lock tongue is arranged in the third shell in a sliding way along the axial direction of the third rotating shaft and is used for locking with the mounting frame; The hole wall of the third screw hole is provided with a third internal thread, the third rotating shaft is rotatably arranged in the third screw hole, the third external thread is connected with the third internal thread in a matched manner, and the third rotating shaft can drive the third lock tongue to move when rotating; Wherein when the third handle rotates to be raised relative to the third shell, the third lock tongue is retracted in the third shell and is released from the mounting frame, and when the third handle rotates to be attached relative to the third shell, the third lock tongue extends out of the third shell and is locked with the mounting frame.
  16. 16. The integrated power supply system of claim 13, wherein the flex cable assembly further comprises a third handle and The third handle is rotatably arranged in the middle of the side wall of the third shell and/or When the third handle is attached relative to the third shell, a third avoiding space for rotating the third handle is arranged between the third handle and the third shell, and/or And when the third handle is attached relative to the third shell, the third handle is flush with the side wall of the third shell.
  17. 17. An integrated powered table comprising: An integrated power supply system as claimed in any one of claims 4-16, and The integrated power supply system is arranged on the table body.

Description

Desktop mounting structure, integrated power supply system and integrated power supply desk Technical Field The application relates to the technical field of integrated power supply, in particular to a desktop mounting structure, an integrated power supply system and an integrated power supply desk. Background The power supply module is used for receiving external power supply input and outputting voltage and current which are suitable for requirements through internal circuit design and conversion. In the related art, the power supply module is often placed in working areas such as a desk at will, and the stability is poor, so that the power supply module is easy to shift, and the electric wire connected with the power supply module can be pulled, so that the power supply module has certain potential safety hazard. Disclosure of utility model The embodiment of the application provides a desktop mounting structure, an integrated power supply system and an integrated power supply desk, which can improve the fixing effect of the integrated power supply system and reduce potential safety hazards. In a first aspect, an embodiment of the present application provides a desktop mounting structure, where the desktop mounting structure includes a mounting frame, a first electrical connection terminal and a second electrical connection terminal, the mounting frame is used for mounting a desktop of a desk body, the desktop includes a bottom wall, a plurality of side walls, a mounting cavity formed by enclosing the bottom wall and the plurality of side walls, and a top opening communicating with the mounting cavity, the mounting cavity includes a first mounting cavity for mounting an external first dc output component, and a second mounting cavity for mounting an external first ac output component, the first electrical connection terminal is disposed on the bottom wall and located in the first mounting cavity, and is used for connecting an external power module to receive a power input, when the first dc output component is mounted in the first mounting cavity, the first dc output component is electrically connected with the first electrical connection terminal, and the second electrical connection terminal is disposed on the bottom wall and located in the second mounting cavity, and is used for connecting the power module to receive a power input, and when the first ac output component is mounted in the first mounting cavity, the first electrical connection terminal is electrically connected with the first ac output terminal. In a second aspect, an embodiment of the present application provides an integrated power supply system, where the integrated power supply system includes at least two desktop mounting structures, a first power supply assembly, a second power supply assembly and a power module, the first power supply assembly includes the first dc output assembly and the first ac output assembly, after the first power supply assembly is placed in one of the desktop mounting structures, the first dc output assembly is electrically connected to the first electrical connection terminal of the other desktop mounting structure, the first ac output assembly is electrically connected to the second electrical connection terminal of the desktop mounting structure, the second power supply assembly includes another first dc output assembly and another first ac output assembly, and after the second power supply assembly is placed in the other desktop mounting structure, the other first dc output assembly is electrically connected to the other first electrical connection terminal of the other desktop mounting structure, the other first ac output assembly is electrically connected to the other second electrical connection terminal of the other desktop mounting structure, the second power supply assembly is electrically connected to the second electrical connection terminal of the other desktop mounting structure, and the second power supply assembly is electrically connected to the other first electrical connection terminal of the other first dc output assembly and the other first electrical connection terminal of the other desktop mounting structure. In a third aspect, an embodiment of the present application provides an integrated power supply table, where the integrated power supply table includes an integrated power supply system and a table body, where the integrated power supply system is disposed on the table body. The mounting structure has the beneficial effects that the mounting structure is provided with the first mounting cavity and the second mounting cavity, the first power supply assembly can be mounted in the first mounting cavity, and the second power supply assembly can be mounted in the second mounting cavity, so that the first power supply assembly and the second power supply assembly have relatively good fixing effects relative to the mounting frame, the first power supply assembly and the second power sup