CN216291750U - Self-adjusting embedded power module assembly - Google Patents

Abstract

The utility model relates to a self-adjusting embedded power module assembly, which comprises a power module, wherein fixing plates are arranged at two side positions of the power module, a sliding rail is arranged on a fixing plate bracket, a moving member is arranged on the sliding rail, the moving member is slidably arranged on the sliding rail, a clamping rod is arranged on the moving member, clamping holes are formed in the sliding rail, the clamping rod is matched and fixed with the clamping holes at different positions on the sliding rail, an installation plate is arranged on the moving member, and the installation plate is used for being detachably installed and fixed on equipment to be installed; through the removal of moving member on the slip track, and then the position of adjustment moving member, just so can realize the position adjustment to the mounting panel, then can install the mounting panel in the equipment that needs the installation, for example communication equipment's quick-witted case shell after the adjustment to can the position of quick adjustment moving member according to the difference of the mounted position in the equipment.

Description

Self-adjusting embedded power module assembly

Technical Field

The utility model relates to a self-adjusting embedded power module assembly, in particular to a module structure which is convenient for the position adjustment of mounting positions at two sides of a power module.

Background

The embedded power supply is used as a power supply module with good stability and safety, and is applied to a plurality of communication devices. In the prior embedded power module, one problem in practical use is mounting, and the two side positions of the power module are usually provided with mounting portions, which may be mounting plates, through which the power module can be mounted and fixed on other equipment, for example, in a chassis or at other equipment positions.

However, in some cases, due to different structures or different fixed positions of the devices to be mounted, the mounting positions of the two side positions of the power module cannot be matched well frequently, or in some cases, the power module needs to be adjusted frequently according to actual conditions, so that the purpose of the conventional power module is difficult to achieve.

Attempts have also been made in the prior art to solve this problem, for example, in the publication of chinese utility model patent 212649890U, an embedded power module is disclosed, which is designed with a power module having an installation portion with an adjustment function. However, this structure still has disadvantages in practical use, that is, the movement adjustment function is inconvenient, and the number of processes required for mounting at a specific adjustment position is large, and therefore, it is necessary to further improve the mounting positions at both sides of the conventional power module.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a module structure which is convenient for adjusting the positions of mounting parts on two sides of a power supply module.

In order to achieve the above purpose, the present invention provides a self-adjusting embedded power module assembly, which includes a power module, wherein fixing plates are disposed at two sides of the power module, a sliding rail is disposed on a fixing plate bracket, a moving member is disposed on the sliding rail in a sliding manner, a clamping rod is disposed on the moving member, a clamping hole is disposed on the sliding rail, the clamping rod is matched and fixed with the clamping holes at different positions on the sliding rail, and a mounting plate is disposed on the moving member and is used for detachably mounting and fixing on a device to be mounted.

The beneficial effect of above-mentioned scheme does: through the removal of moving member on the slip track, and then the position of adjustment moving member, just so can realize the position adjustment to the mounting panel, then can install the mounting panel in the equipment that needs the installation, for example communication equipment's quick-witted case shell after the adjustment to can the position of quick adjustment moving member according to the difference of the mounted position in the equipment. In addition, when the moving member moves to a position, the position of the moving member is fixed by the clamping rod and the clamping hole, and then the clamping rod and the clamping hole are manually separated when the moving member needs to move, so that the moving member can relatively adjust and move the position.

An optimal scheme is that the sliding track includes the cell body structure, the cell body structure includes arc outer wall structure, the top of arc outer wall structure forms the notch portion, the interval sets up on the bottom of arc outer wall structure the block hole.

The beneficial effect of above-mentioned scheme does: the clamping holes are formed in the positions, the clamping rod can be fixed in the clamping holes in different positions when moving in the horizontal direction, and then the clamping rod is fixedly matched to adjust the position.

In a preferable scheme, the moving member comprises a circular ring sliding body, a driving rod, a clamping rod and a return spring, the top of the circular ring sliding body is provided with a gap part and a connecting part, the circular ring sliding body is sleeved on the sliding track in a sliding way, the notch part is provided with a fixed shaft lever, the driving lever is provided with an external transverse pressing rod part, a vertical rod part and an internal pressing rod part which are connected in sequence, the external transverse rod pressing part is arranged at the gap part, the connecting part of the external transverse rod pressing part and the vertical rod part is rotatably sleeved on the fixed shaft lever, the built-in pressure rod part is arranged in the circular ring sliding body, the lower side of the end part of the built-in pressure rod part is connected with the clamping rod, the upper side of the end part of the built-in pressure rod part is connected with the reset spring, and the top of the reset spring is connected with the connecting plate.

In the specific application process, the clamping rod is clamped and fixed in the clamping hole, so that clamping and fixing are realized, and the reset spring performs downward pressing action on the clamping rod. In addition, when needs remove, then break away from the block pole in the block hole, specifically, press external horizontal pressure pole portion for horizontal pressure pole portion drives vertical pole portion and built-in pressure pole portion and rotates around fixed axostylus axostyle, and then makes built-in pressure pole portion drive the block pole and break away from the block hole, just so can drive the ring sliding body smoothly and remove. When the clamping rod moves to a required position, the transverse rod pressing part is released, and the reset spring drives the built-in rod pressing part to move downwards in this time, so that the clamping rod is inserted into the clamping hole again to fix the position.

Preferably, the two sides of the circular sliding body are provided with mounting parts, and the fixing shaft rod is arranged in the mounting parts.

Preferably, the side of the circular sliding body is connected with a mounting plate, and the mounting plate is provided with a mounting through hole. The moving member is fastened and mounted to the mounting portion of the other device by a mounting through hole and other fastening members such as a connecting bolt.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic perspective view of a self-adjusting embedded power module assembly according to the present invention from a first perspective;

FIG. 2 is a schematic structural diagram of a second perspective view of a self-adjusting embedded power module assembly in accordance with the present invention;

FIG. 3 is a schematic diagram of a first cross-sectional view of a self-adjusting embedded power module assembly in accordance with the present invention;

FIG. 4 is a schematic diagram of a second cross-sectional view of the self-adjusting embedded power module assembly of the present invention;

FIG. 5 is an enlarged schematic view of region A in FIG. 2;

FIG. 6 is an enlarged schematic view of the area B in FIG. 3;

fig. 7 is an enlarged schematic view of the region C in fig. 4.

Detailed Description

The technical solution in the embodiments of the present invention is clearly and completely described below with reference to the drawings in the embodiments of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

The first embodiment:

as shown in fig. 1 to 6, the present invention provides a self-adjusting embedded power module assembly, which includes a power module 1, wherein two side positions of the power module 1 are provided with fixing plates 2, the fixing plates 2 are supported by a sliding rail 3, the sliding rail 3 is provided with a moving member 4, the moving member 4 is slidably disposed on the sliding rail 3, the moving member 4 is provided with a locking rod 41, the sliding rail 3 is provided with a locking hole 31, the locking rod 41 is matched and fixed with the locking hole 31 at different positions on the sliding rail 3, the moving member 4 is provided with a mounting plate 40, and the mounting plate 40 is used for detachably mounting and fixing on a device to be mounted.

Through the removal of moving member 4 on slip track 3, and then the position of adjustment moving member 4, just so can realize the position adjustment to mounting panel 40, then can install mounting panel 40 in the equipment that needs the installation, for example communication equipment's chassis shell after the adjustment to can adjust the position of moving member 4 fast according to the difference of the mounted position in the equipment. In addition, each time the moving member 4 moves to one position, the position of the moving member 4 is fixed by the engaging rod 41 and the engaging hole 31, and then the moving member 4 can be relatively moved by manually separating the engaging rod 41 from the engaging hole 31 when the moving member needs to be moved.

Second embodiment:

as shown in fig. 5 to 6, preferably, the sliding rail 3 of the present embodiment includes a groove structure 32, the groove structure 32 includes an arc-shaped outer wall structure 33, a top of the arc-shaped outer wall structure 33 forms a groove opening 34, and the engaging holes 31 are disposed at intervals on a bottom of the arc-shaped outer wall structure 33.

The position adjustment can be performed by providing the engaging holes 31 at a plurality of positions, fixing the engaging rod 41 in the engaging holes 31 at different positions when moving in the horizontal direction, and then fixedly engaging the engaging holes.

As shown in fig. 6 and 7, the moving member 4 includes a circular sliding body 42, a driving rod 43, a clamping rod 41, and a return spring 45, the top of the circular sliding body 42 has a notch 421 and a connecting portion 422, the circular sliding body 42 is slidably sleeved on the sliding rail 3, the notch 421 has a fixed shaft 423, the driving rod 43 has an external transverse rod portion 431, a vertical rod portion 432, and an internal rod portion 433 connected in sequence, the external transverse rod portion 431 is disposed at the notch 421, the connecting portion between the external transverse rod portion 431 and the vertical rod portion 432 is rotatably sleeved on the fixed shaft 423, the internal rod portion 433 is disposed in the circular sliding body 42, the lower side of the end of the internal rod portion 433 is connected to the clamping rod 41, and the upper side of the end of the internal rod portion 433 is connected to the return spring 45, the top of the return spring 45 is connected to the connecting plate 422.

In the process of specific application, the engaging rod 41 is engaged and fixed in the engaging hole 31, so that the engaging and fixing are realized, and the return spring 45 performs a downward pressing action on the engaging rod 41. In addition, when the circular ring sliding body 42 needs to be moved, the engaging rod 41 is disengaged from the engaging hole 31, specifically, the external horizontal rod pressing portion 431 is pressed, so that the horizontal rod pressing portion 431 drives the vertical rod portion 432 and the internal rod pressing portion 433 to rotate around the fixed shaft 423, and further the internal rod pressing portion 433 drives the engaging rod 41 to disengage from the engaging hole 31, so that the circular ring sliding body 42 can be smoothly driven to move. When the locking rod 41 is moved to a required position, the transverse rod pressing portion 431 is released, and at this time, the return spring 45 drives the built-in rod pressing portion 433 to move downwards, so that the locking rod 41 is reinserted into the locking hole 31 to fix the position.

As shown in fig. 7, the circular sliding body 42 has mounting portions 420 at both sides thereof, and the fixing shaft 423 is disposed in the mounting portions 420.

As shown in fig. 5, the side of the circular sliding body 42 is connected to the mounting plate 40, and the mounting plate 40 has a mounting through hole 424. The moving member 4 is fastened and mounted to a mounting portion of another apparatus by a mounting through hole 424 and other fastening members such as a connecting bolt.

It is to be understood that the described embodiments are merely a few embodiments of the utility model, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims (5)

1. The utility model provides a self-adjusting embedded power module subassembly which characterized in that, includes power module, power module's both sides position has the fixed plate, the fixed plate support is equipped with the slip track, the last moving member that has of slip track, the moving member slidable sets up the slip track, the last block pole that has of moving member, the last block hole that has of slip track, the block pole with the block hole cooperation of different positions on the slip track is fixed, the last mounting panel that has of moving member, the mounting panel is used for detachably installation to be fixed on waiting to install equipment.

2. The self-adjusting embedded power module assembly of claim 1, wherein the sliding track comprises a slot structure, the slot structure comprises an arc-shaped outer wall structure, a slot portion is formed at the top of the arc-shaped outer wall structure, and the engaging holes are arranged at intervals on the bottom of the arc-shaped outer wall structure.

3. The self-adjusting embedded power module assembly of claim 2, wherein the moving member comprises a circular ring sliding body, a driving rod, a clamping rod and a return spring, the circular ring sliding body has a notch portion and a connecting portion at the top, the circular ring sliding body is slidably sleeved on the sliding rail, the notch portion is provided with a fixed shaft rod, the driving rod has an external transverse rod pressing portion, a vertical rod portion and an internal rod pressing portion which are sequentially connected, the external transverse rod pressing portion is arranged at the notch portion, the connecting portion between the external transverse rod pressing portion and the vertical rod portion is rotatably sleeved on the fixed shaft rod, the internal rod pressing portion is arranged in the circular ring sliding body, the lower side of the end portion of the internal rod pressing portion is connected with the clamping rod, and the upper side of the end portion of the internal rod pressing portion is connected with the return spring, the top of the reset spring is connected with the connecting part.

4. The self-adjusting embedded power module assembly of claim 3, wherein the ring slider has mounting portions on both sides thereof, the mounting portions having the fixed shaft disposed therein.

5. The self-adjusting embedded power module assembly of claim 3, wherein the side of the ring slider is attached to a mounting plate having mounting holes therethrough.

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