CN114076251B - Suspension clamping mechanism - Google Patents

Abstract

The invention discloses a suspension clamping mechanism which is suitable for installing an electronic device on a first ceiling structure body and comprises a suspension bracket, a first clamping hook, a second clamping hook, a first elastic stop unit, a second elastic stop unit and a locking unit. The suspension bracket is connected with the electronic device. The first clamping hook is fixedly connected with the suspension bracket. The second clamping hook is fixedly connected with the suspension bracket. The first elastic stop unit is movably arranged on the suspension bracket. The second elastic stop unit is movably arranged on the suspension bracket. The locking unit is adapted to limit the first elastic stop unit.

Description

Suspension clamping mechanism

Technical Field

The present invention relates to a suspension clamping mechanism, and more particularly to a suspension clamping mechanism for fixing an electronic device to a ceiling structure.

Background

Wireless routers or other electronic devices are typically secured to the ceiling by a suspension clamping mechanism, and in particular, are often secured to a metal support structure of the ceiling. The metal support structure may be a T-beam or other shaped metal structure. However, the metal supporting structures on the market are various, and the existing suspension type fixing base cannot be simultaneously matched with the metal supporting structures with different designs, so that the difficulty of installing the electronic device (such as a wireless router) is caused.

In addition, the existing suspension clamping mechanism is easy to fall off from the ceiling structure body, so that the electronic device is damaged, and even dangers are generated. Therefore, there is a need for a suspension clamping mechanism design that can be easily installed and yet can be securely attached.

Disclosure of Invention

The embodiment of the invention provides a suspension clamping mechanism which is suitable for being arranged on a first ceiling structure body and comprises a suspension bracket, a first clamping hook, a second clamping hook, a first elastic stop unit and a second elastic stop unit. The first clamping hook is fixedly connected with the suspension bracket. The second clamping hook is fixedly connected with the suspension bracket. The first elastic stop unit is movably arranged on the suspension bracket. The second elastic stop unit is movably arranged on the suspension bracket. In a first assembling state, the first ceiling structure body presses and moves the first elastic stop unit and the second elastic stop unit, and in a first fixing state, the first clamping hook and the first elastic stop unit are abutted against one side of the first ceiling structure body, and the second clamping hook and the second elastic stop unit are abutted against the other side of the first ceiling structure body. A locking unit restricts movement of the first elastic stopper unit relative to the suspension bracket in a locked state, and releases the restriction of the locking unit on the first elastic stopper unit in an unlocked state.

In an embodiment, the suspension clamping mechanism is adapted to be mounted on a second ceiling structure, wherein the first elastic stop unit includes a first elastic stop unit and a second elastic stop unit, the second elastic stop unit includes a third elastic stop unit and a fourth elastic stop unit, in the first fixing state, the first clamping hook and the first elastic stop unit are abutted against one side of the first ceiling structure, the second clamping hook and the third elastic stop unit are abutted against the other side of the first ceiling structure, in the second assembling state, the second ceiling structure is pressed against and moves the first elastic stop unit and the second elastic stop unit, in the second fixing state, the first clamping hook and the second elastic stop unit are abutted against one side of the second ceiling structure, the second clamping hook and the fourth elastic stop unit are abutted against the other side of the second ceiling structure, the second ceiling structure is pressed against one bottom surface of the first ceiling structure and the other side of the first elastic stop unit, the second ceiling structure is pressed against the first ceiling structure, the first ceiling structure has a width, and the first ceiling structure has a width.

In an embodiment, the suspension clamping mechanism further includes a locking unit, the locking unit includes a locking block, the locking block moves between a first locking block position and a second locking block position, in a locked state, the locking block is located at the first locking block position and corresponds to the first elastic stop unit to limit the movement of the first elastic stop unit relative to the suspension bracket, and in an unlocked state, the locking block is moved to the second locking block position to release the limitation of the first elastic stop unit.

In an embodiment, the locking unit includes a guide post and an elastic element, the elastic element is sleeved on the guide post, the locking block is connected with the guide post in a slidable manner, the guide post is arranged on the suspension bracket, one end of the elastic element is abutted against the suspension bracket, and the other end of the elastic element is abutted against the locking block.

In an embodiment, the locking block includes a pushing portion, the pushing portion is adapted to be pushed to move the locking block from the first locking block position to the second locking block position, and the elastic element is adapted to provide an elastic force to the locking block, and the elastic force returns the locking block from the second locking block position to the first locking block position.

In an embodiment, the locking block includes a pushing portion, the pushing portion is adapted to be pushed to move the locking block from the second locking block position to the first locking block position, and the elastic element is adapted to provide an elastic force to the locking block, and the elastic force returns the locking block from the first locking block position to the second locking block position.

In one embodiment, in the first assembled state, the first ceiling structure pushes the pushing portion to move the lock block from the second lock block position toward the first lock block position.

In an embodiment, the locking unit includes a rotating shaft and an elastic element, the elastic element is sleeved on the rotating shaft, the locking block is pivoted to the rotating shaft, the rotating shaft is arranged on the suspension bracket, one end of the elastic element is connected with the suspension bracket, the other end of the elastic element is connected with the locking block, and the locking block is suitable for rotating between the first locking block position and the second locking block position.

In one embodiment, the locking block includes a locking block tab adapted to be pressed to rotate the locking block from the first locking block position to the second locking block position.

In one embodiment, the locking block boss includes a boss slope, and in the first assembled state, the first ceiling structure is pressed against the locking block boss along the boss slope to rotate the locking block from the first locking block position to the second locking block position.

In one embodiment, the suspension bracket includes a chute, the lock block being adapted to slide in the chute, whereby the lock block moves between the first lock block position and the second lock block position.

In an embodiment, the suspension bracket further includes a first bump and a second bump, when the locking block is located at the first locking block position, the first bump is engaged with the locking block, and when the locking block is located at the second locking block position, the second bump is engaged with the locking block.

In an embodiment, the locking block is disposed on an electronic device, the electronic device moves between a first device position and a second device position relative to the suspension bracket, when the electronic device is in the first device position, the electronic device is connected to the suspension bracket, the locking block is located at the first locking block position, when the electronic device is in the second device position, the electronic device is suitable for being separated from the suspension bracket, and the locking block is located at the second locking block position.

In one embodiment, the suspension bracket comprises a first bracket opening, and the first elastic stop unit is adapted to protrude at least partially through the first bracket opening from the surface of the suspension bracket

The suspension clamping mechanism can be combined on two ceiling structures with different sizes. The suspension clamping mechanism provided by the embodiment of the invention has the advantages of simple structure, convenience in installation and low cost. In addition, the suspension clamping mechanism of the embodiment of the invention is also provided with a locking unit, so that the suspension clamping mechanism can be further prevented from falling off the ceiling structure body.

Drawings

FIG. 1 is a schematic view of a suspension clamping mechanism according to a first embodiment of the present invention;

FIG. 2 is a perspective view of a suspension clamp mechanism according to a first embodiment of the present invention;

FIG. 3A is a schematic view of a first assembled state of a suspension clamping mechanism according to a first embodiment of the present invention;

FIG. 3B is a schematic view showing a first fixing state of the suspension clamping mechanism according to the first embodiment of the present invention;

FIG. 4A is a schematic view of a second assembled state of the suspension clamping mechanism according to the first embodiment of the present invention;

FIG. 4B is a schematic view showing a second fixing state of the suspension clamping mechanism according to the first embodiment of the present invention;

fig. 5A and 5B are detailed construction views of a locking unit according to a first embodiment of the present invention;

FIG. 5C is a cross-sectional view of the locking unit of the first embodiment of the present invention;

FIG. 5D is a schematic view of a stent restriction according to an embodiment of the present invention;

fig. 6A and 6B are detailed construction views of a locking unit according to a second embodiment of the present invention;

fig. 6C and 6D are schematic diagrams illustrating the operation of the locking unit according to the second embodiment of the present invention;

fig. 7A and 7B are detailed construction views of a locking unit according to a third embodiment of the present invention;

fig. 7C and 7D are schematic diagrams illustrating an operation of the locking unit according to the third embodiment of the present invention;

FIG. 8A is a detailed construction view of a locking unit according to a fourth embodiment of the present invention;

fig. 8B and 8C are schematic diagrams illustrating an operation of the locking unit according to the fourth embodiment of the present invention;

fig. 8D is a cross-sectional view of a locking unit of a fourth embodiment of the present invention;

fig. 9A and 9B are schematic diagrams illustrating an operation of the locking unit according to the fifth embodiment of the present invention.

Symbol description

M1 suspension clamping mechanism

C1 first ceiling structure

C2 second ceiling structure

E. E5. electronic device

E51 fixing pin

1 first clamping hook

2 second clamping hook

3 first elastic stop unit

31 first spring piece

311 spring piece abutting part

312 spring extension

32 second spring piece

4 second elastic stop unit

41 third spring piece

42 fourth spring piece

5 suspension bracket

51 bracket restriction

52 sliding groove

521 first bump

522 second bump

53 connecting chute

541 first bracket opening

542 second bracket opening

601. 602, 603, 604 locking unit

611 locking block

612 guide post

613 elastic element

614 push-pull part

621 locking block

622 guide post

623 spring element

624 push-pull part

631 locking block

632 rotating shaft

633 spring element

634 locking block convex column

635 convex column inclined plane

641 locking block

651 locking block

d1 first structure width

d2 second Structure Width

Detailed Description

Fig. 1 is a view showing a suspension clamping mechanism according to a first embodiment of the present invention. Referring to fig. 1, a suspension clamping mechanism M1 according to a first embodiment of the present invention is adapted to mount an electronic device E on a first ceiling structure C1. Fig. 2 is a perspective view showing a suspension clamping mechanism according to a first embodiment of the present invention. Referring to fig. 1 and 2, the suspension clamping mechanism M1 includes a suspension bracket 5, a first clamping hook 1, a second clamping hook 2, a first elastic stop unit 3 and a second elastic stop unit 4. The suspension bracket 5 is connected to the electronic device. The first clamping hook 1 is fixedly connected with the suspension bracket 5. The second clamping hook 2 is fixedly connected with the suspension bracket 5. The first elastic stopper unit 3 is movably provided to the suspension bracket 5. The second elastic stopper unit 4 is movably provided to the suspension bracket 5. In fig. 1, the electronic device E is shown in a schematic view.

Fig. 3A is a view showing a first assembled state of the suspension clamping mechanism according to the first embodiment of the present invention. Fig. 3B is a view showing a first fixed state of the suspension clamping mechanism according to the first embodiment of the present invention. Referring to fig. 3A and 3B, in a first assembled state (fig. 3A), the first ceiling structure C1 presses and moves the first elastic stopper unit 3 and the second elastic stopper unit 4. In a first fixed state (fig. 3B), the first clamping hook 1 and the first elastic stop unit 3 abut against one side of the first ceiling structure C1, and the second clamping hook 2 and the second elastic stop unit 4 abut against the other side of the first ceiling structure C1. Thus, the suspension clamping mechanism M1 can be firmly connected to the first ceiling structural body C1.

Fig. 4A is a view showing a second assembled state of the suspension clamping mechanism of the first embodiment of the present invention. Fig. 4B is a view showing a second fixing state of the suspension clamping mechanism according to the first embodiment of the present invention. Referring to fig. 2, 3A, 3B, 4A, and 4B, in an embodiment, the suspension clamping mechanism M1 is adapted to mount the electronic device on a second ceiling structure C2, wherein the first elastic stop unit 3 includes a first elastic piece 31 and a second elastic piece 32, and the second elastic stop unit 4 includes a third elastic piece 41 and a fourth elastic piece 42. In the first fixed state (fig. 3B), the first clamping hook 1 and the first elastic piece 31 are abutted against one side of the first ceiling structure C1, and the second clamping hook 2 and the third elastic piece 41 are abutted against the other side of the first ceiling structure C1. In a second assembled state (fig. 4A), the second ceiling structure C2 presses and moves the first elastic stopper unit 3 and the second elastic stopper unit 4. In a second fixing state (fig. 4B), the first clamping hook 1 and the second elastic piece 32 are abutted against one side of the second ceiling structure C2, the second clamping hook 2 and the fourth elastic piece 42 are abutted against the other side of the second ceiling structure C2, and the second ceiling structure C2 is pressed against a bottom surface of the first elastic piece 31 and the third elastic piece 41. In this embodiment, the first ceiling structure C1 has a first structure width d1, the second ceiling structure C2 has a second structure width d2, and the second structure width d2 is larger than the first structure width d1.

Referring to fig. 2, 3B and 4B, in one embodiment, the suspension bracket 5 includes a first bracket opening 541 and a second bracket opening 542. The first elastic piece 31 and the second elastic piece 32 are adapted to pass through the first bracket opening 541 and protrude from the upper surface of the suspension bracket 5 so as to abut against the ceiling structure. The third elastic piece 41 and the fourth elastic piece 42 are adapted to pass through the second bracket opening 542 and protrude from the upper surface of the suspension bracket 5 to abut against the ceiling structure. Referring to fig. 2, specifically, taking the first elastic piece 31 as an example, the first elastic piece 31 includes an elastic piece abutting portion 311 and an elastic piece extending portion 312, wherein the elastic piece abutting portion 311 passes through the first bracket opening 541 and protrudes from the upper surface of the suspension bracket 5 to abut against the ceiling structure, and the elastic piece extending portion 312 is convenient for a user to press the first elastic piece 31. The second elastic piece 32, the third elastic piece 41 and the fourth elastic piece 42 are similar to the first elastic piece 31, and therefore, the description thereof is omitted.

Fig. 5A and 5B are views showing a detailed structure of a locking unit according to a first embodiment of the present invention. Fig. 5C is a sectional view showing a locking unit of the first embodiment of the present invention. Referring to fig. 5A, 5B and 5C, in an embodiment, the suspension clamping mechanism M1 further includes a locking unit 601, the locking unit 601 includes a locking block 611, and the locking block 611 moves between a first locking block position (fig. 5A) and a second locking block position (fig. 5B). In a locked state (fig. 5A), the locking block 611 is at the first locking block position corresponding to the first elastic stopper unit 3, so as to limit the movement of the first elastic stopper unit 3 relative to the suspension bracket 5 (in this embodiment, limit the downward rotation of the first elastic stopper unit 3). In an unlocked state (fig. 5B), the lock block 611 is moved to the second lock block position to release the restriction of the first elastic stopper unit 3.

In the embodiment of the invention, the elastic stop unit is locked by the locking unit, so that the elastic stop unit can truly limit the ceiling structure body and prevent the ceiling structure body from accidentally falling off from the suspension clamping mechanism. In an embodiment, a locking unit is also disposed at the second elastic stop unit, which is not described in detail.

Referring to fig. 5A, 5B and 5C in a matching manner, in this embodiment, the locking unit 601 includes a guide post 612 and an elastic element 613, the elastic element 613 is sleeved on the guide post 612, the locking block 611 is slidably connected to the guide post 612, the guide post 612 is disposed on the suspension bracket 5, one end of the elastic element 613 abuts against the suspension bracket 5, and the other end of the elastic element 613 abuts against the locking block 611.

Referring to fig. 5A, 5B, and 5C in combination, in one embodiment, the locking block 611 includes a pushing portion 614, the pushing portion 614 is adapted to be pushed to move the locking block 611 from the first locking block position (fig. 5A) to the second locking block position (fig. 5B), and the elastic element 613 is adapted to provide an elastic force to the locking block 611, and the elastic force returns the locking block 611 from the second locking block position to the first locking block position. In this embodiment, the user can manually push the pushing portion 614 to unlock.

Fig. 5D is a view showing a stent restriction according to an embodiment of the present invention. Referring to fig. 5A, 5B and 5D, in an embodiment, the suspension bracket 5 further includes a bracket restriction portion 51, where the bracket restriction portion 51 corresponds to the first elastic stop unit 3, so as to prevent the first elastic stop unit 3 from being excessively deformed (in this embodiment, prevent the first elastic stop unit 3 from excessively rotating downward).

Fig. 6A and 6B are detailed structures of a locking unit according to a second embodiment of the present invention. Fig. 6C and 6D are diagrams showing the operation of the locking unit according to the second embodiment of the present invention. Referring to fig. 6A, 6B, 6C and 6D in combination, in this embodiment, the locking unit 602 includes a guide post 622 and an elastic element 623, the elastic element 623 is sleeved on the guide post 622, the locking block 621 is slidably connected to the guide post 622, the guide post 622 is disposed on the suspension bracket 5, one end of the elastic element 623 abuts against the suspension bracket 5, and the other end of the elastic element 623 abuts against the locking block 621. In one embodiment, the locking block 621 includes a pushing portion 624, the pushing portion 624 is adapted to be pushed to move the locking block 621 from the second locking block position to the first locking block position, and the elastic member 623 is adapted to provide an elastic force to the locking block, and the elastic force returns the locking block 621 from the first locking block position to the second locking block position.

Referring to fig. 6A, 6B, 6C, and 6D in combination, in one embodiment, in the first assembled state, the first ceiling structure C1 pushes the pushing portion 624 to move the locking piece 621 from the second locking piece position toward the first locking piece position. Thus, the locking unit 602 automatically completes locking during assembly. When unlocking is desired, the user can press the pushing part 624 to separate the pushing part 624 from the ceiling structure, thereby completing unlocking.

Fig. 7A and 7B are detailed structures of a locking unit according to a third embodiment of the present invention. Fig. 7C and 7D are diagrams showing the operation of the locking unit according to the third embodiment of the present invention. Referring to fig. 7A, 7B, 7C and 7D in a matching manner, in this embodiment, the locking unit 603 includes a rotating shaft 632 and an elastic element 633, the elastic element 633 is sleeved on the rotating shaft 632, the locking block 631 is pivoted to the rotating shaft 632, the rotating shaft 632 is disposed on the suspension bracket 5, one end of the elastic element 633 is connected to the suspension bracket 5, the other end of the elastic element 633 is connected to the locking block 631, and the locking block 631 is adapted to rotate between the first locking block position (fig. 7C) and the second locking block position (fig. 7D).

Referring to fig. 7A, 7B, 7C, and 7D in combination, in one embodiment, the locking block 631 includes a locking block post 634, the locking block post 634 adapted to be depressed to rotate the locking block 631 from the first locking block position (fig. 7C) to the second locking block position (fig. 7D). The locking unit 603 can be unlocked by pressing the locking block boss 634.

Referring to fig. 7A, 7B, 7C and 7D in combination, in one embodiment, the locking block boss 634 includes a boss ramp 635, and in the first assembled state, the first ceiling structure C1 presses against the locking block boss 634 along the boss ramp 635, thereby rotating the locking block 631 from the first locking block position (fig. 7C) to the second locking block position (fig. 7D). Thus, the ceiling structure can be assembled smoothly. After the ceiling structure is assembled, the locking block 631 is returned to the first locking block position (fig. 7C) by the elastic force of the elastic element 633 to limit the rotation of the second elastic piece 32.

Fig. 8A is a detailed structure showing a locking unit of a fourth embodiment of the present invention. Fig. 8B and 8C are diagrams showing the operation of the locking unit according to the fourth embodiment of the present invention. Fig. 8D is a sectional view showing a locking unit of a fourth embodiment of the present invention. Referring to fig. 8A, 8B, 8C and 8D in combination, in one embodiment, the locking unit 604 includes a locking block 641, the suspension bracket 5 includes a chute 52, the locking block 641 is adapted to slide in the chute 52, and thereby the locking block 641 moves between the first locking block position (fig. 8B) and the second locking block position (fig. 8C). In an embodiment, the suspension bracket 5 further includes a first bump 521 and a second bump 522, when the locking block 641 is located at the first locking block position, the first bump 521 engages the locking block 641 (fig. 8D), and when the locking block 641 is located at the second locking block position, the second bump 522 engages the locking block 641. In this embodiment, the user can push the locking block 641 to directly lock and unlock. Referring to fig. 8A, in the locked state, the locking block 641 is located below the second elastic piece 32 to limit the rotation of the second elastic piece 32.

Fig. 9A and 9B are diagrams showing the operation of the locking unit according to the fifth embodiment of the present invention. Referring to fig. 9A and 9B, in one embodiment, the locking block 651 is disposed on the electronic device, and the electronic device E5 moves between a first device position (fig. 9A) and a second device position (fig. 9B) relative to the suspension bracket 5. When the electronic device E5 is in the first device position (fig. 9A), the electronic device E5 is connected to the suspension bracket 5, and the locking block 651 is located in the first locking block position. When the electronic device E5 is in the second device position (fig. 9B), the electronic device E5 is adapted to disengage from the suspension bracket 5, and the locking block 651 is in the second locking block position. Referring to fig. 9A and 9B, in this embodiment, the suspension bracket 5 includes a connecting chute 53, and the electronic device E5 includes a fixing pin E51, and the fixing pin E51 is slidably connected to the connecting chute 53.

The suspension clamping mechanism can be combined on two ceiling structures with different sizes. The suspension clamping mechanism provided by the embodiment of the invention has the advantages of simple structure, convenience in installation and low cost. In addition, the suspension clamping mechanism of the embodiment of the invention is also provided with a locking unit, so that the suspension clamping mechanism can be further prevented from falling off the ceiling structure body.

Although the invention has been described with reference to the preferred embodiments, it is not limited thereto, and modifications and variations may be made by those skilled in the art without departing from the spirit and scope of the invention, which is defined in the appended claims.

Claims (13)

1. A suspension clamp mechanism for selective attachment to differently sized ceiling structures, the suspension clamp mechanism adapted to be mounted over a first ceiling structure having a first structural width and adapted to be mounted over a second ceiling structure having a second structural width that is wider than the first structural width, the suspension clamp mechanism comprising:

a suspension bracket including a first bracket opening and a second bracket opening;

the first clamping hook is fixedly connected with the suspension bracket, and the first elastic stop unit is movably arranged on the suspension bracket;

the second clamping hook is fixedly connected with the suspension bracket, and the second elastic stop unit is movably arranged on the suspension bracket; and

a locking unit configured to restrict movement of the first elastic stopper unit relative to the suspension bracket in a locked state, and to release the restriction of the first elastic stopper unit in an unlocked state;

the first elastic stop unit comprises a first elastic sheet and a second elastic sheet, is suitable for penetrating through the opening of the first bracket and protrudes out of the upper surface of the suspension bracket to contact the ceiling structure, so that the first elastic stop unit is pressed and moved by the first ceiling structure in a first assembling state and is pressed and moved by the second ceiling structure in a second assembling state;

the second elastic stop unit comprises a third elastic sheet and a fourth elastic sheet, and the third elastic sheet and the fourth elastic sheet are suitable for penetrating through the opening of the second bracket and protrude out of the upper surface of the suspension bracket to contact the ceiling structure, so that the second elastic stop unit is pressed and contacted and moved by the first ceiling structure in a first assembling state and is pressed and contacted and moved by the second ceiling structure in a second assembling state; and is also provided with

In the first fixing state, the first clamping hook and the first elastic sheet are configured to be abutted against one side of the first ceiling structure, and the second clamping hook and the third elastic sheet are configured to be abutted against the other side of the first ceiling structure;

in a second fixing state, the first clamping hook and the second elastic piece are configured to abut against one side of the second ceiling structure, the second clamping hook and the fourth elastic piece are configured to abut against the other side of the second ceiling structure, and the first elastic piece and the third elastic piece are configured to be pushed by the bottom surface of the second ceiling structure at the same time.

2. The suspension clamping mechanism of claim 1, wherein the locking unit comprises a locking block that moves between a first locking block position and a second locking block position, the locking block being in the first locking block position corresponding to the first elastic stop unit to limit movement of the first elastic stop unit relative to the suspension bracket in the locked state, the locking block being moved to the second locking block position to release the limit of the first elastic stop unit in the unlocked state.

3. The suspension clamping mechanism of claim 2, wherein the locking unit comprises a guide post and an elastic element, the elastic element is sleeved on the guide post, the locking block is connected with the guide post in a sliding manner, the guide post is arranged on the suspension bracket, one end of the elastic element is abutted against the suspension bracket, and the other end of the elastic element is abutted against the locking block.

4. A suspension clamp mechanism according to claim 3, wherein said lock block includes a push-pull portion adapted to be pushed to move said lock block from said first lock block position to said second lock block position, said resilient member being adapted to provide a resilient force to said lock block, said resilient force returning said lock block from said second lock block position to said first lock block position.

5. A suspension clamp mechanism according to claim 3, wherein said lock block includes a push-pull portion adapted to be pushed to move said lock block from said second lock block position to said first lock block position, said resilient member being adapted to provide a resilient force to said lock block, said resilient force returning said lock block from said first lock block position to said second lock block position.

6. The suspension clamping mechanism of claim 5, wherein in the first assembled state, the first ceiling structure pushes the push portion to move the lock block from the second lock block position toward the first lock block position.

7. The suspension clamping mechanism of claim 2, wherein the locking unit comprises a rotating shaft and an elastic element, the elastic element is sleeved on the rotating shaft, the locking block is pivoted with the rotating shaft, the rotating shaft is arranged on the suspension bracket, one end of the elastic element is connected with the suspension bracket, the other end of the elastic element is connected with the locking block, and the locking block is suitable for rotating between the first locking block position and the second locking block position.

8. The suspension clamp mechanism of claim 7, wherein the lock block includes a lock block tab adapted to be pressed to rotate the lock block from the first lock block position to the second lock block position.

9. The suspension clamp mechanism of claim 8, wherein the locking block boss includes a boss ramp along which the first ceiling structure is pressed against the locking block boss in the first assembled state, thereby rotating the locking block from the first locking block position to the second locking block position.

10. The suspension clamp mechanism of claim 2, wherein the suspension bracket includes a runner, the lock block being adapted to slide in the runner, whereby the lock block moves between the first lock block position and the second lock block position.

11. The suspension clamp mechanism of claim 10, wherein the suspension bracket further comprises a first bump and a second bump, the first bump engaging the locking block when the locking block is in the first locking block position, the second bump engaging the locking block when the locking block is in the second locking block position.

12. The suspension clamping mechanism of claim 2, wherein the locking block is disposed on an electronic device that moves relative to the suspension bracket between a first device position and a second device position, the electronic device being coupled to the suspension bracket when the electronic device is in the first device position, the locking block being in the first locking block position, the electronic device being adapted to disengage from the suspension bracket when the electronic device is in the second device position, the locking block being in the second locking block position.

13. The suspension clamping mechanism of claim 2, wherein the first resilient stop unit is adapted to protrude at least partially through the first bracket opening beyond a surface of the suspension bracket.