CN219978804U - Power supply fixing spring plate buckling structure compatible with two different lengths - Google Patents

Abstract

The utility model discloses a power supply fixing spring plate buckling structure compatible with two different lengths, which comprises a fixing base body, a first spring plate and a second spring plate, wherein the fixing base body is fixed in a computer case; one end of the first elastic piece is a first elastic piece fixing end, the other end of the first elastic piece is a first elastic piece raising end, the first elastic piece fixing end and the first elastic piece raising end are sequentially arranged along the power supply dismantling direction, the first elastic piece fixing end is fixed on the fixing base body, and the first elastic piece raising end is elastically raised upwards and is upwards convex to form a first clamping hook; the second shell fragment is located first shell fragment below, and second shell fragment one end is the second shell fragment stiff end, and the other end is the second shell fragment perk end, and the second shell fragment stiff end is fixed at first shell fragment perk end, and the second shell fragment perk end upwards elasticity perk to form the second trip that protrudes to first shell fragment top, first trip and second trip are towards first shell fragment stiff end. According to the utility model, the elastic sheet is arranged at only one position, so that the clamping and fixing of two power supplies with different sizes are realized.

Description

Power supply fixing spring plate buckling structure compatible with two different lengths

Technical Field

The utility model relates to the technical field of clamping pieces used as limiting, in particular to a buckling structure of a power supply fixing elastic piece compatible with two different lengths.

Background

The detachable components with different sizes can be installed on the part of the installation carrier, for example, the power supplies with different sizes can be fixed in the part of the computer case, the elastic sheet with the hooks is arranged in the part of the computer case so as to facilitate the disassembly of the power supplies, the hooks are enabled to give way in the disassembly direction of the power supplies by pressing the elastic sheet, the power supplies can be disassembled from the computer case, and after the power supplies are installed in place along the loading direction, the elastic sheet elastically sticks up to drive the hooks to be hooked in the disassembly direction of the power supplies so as to fix the power supplies in the computer case.

However, when the power supplies with different sizes are limited by the spring plate with the hook in the prior art, the spring plate is usually required to be respectively arranged corresponding to the power supplies with each size, so that the spring plates are arranged at a plurality of positions in the computer case, and the cost is increased and the disassembly and assembly operations are inconvenient.

Disclosure of Invention

The utility model aims to provide a power supply fixing spring plate buckling structure compatible with two different lengths, overcomes the defects, realizes that a spring plate is arranged at one position, and realizes the clamping and fixing of a plurality of power supplies with different sizes.

To achieve the above object, the solution of the present utility model is: a power supply fixing spring plate buckling structure compatible with two different lengths comprises a fixing base body, a first spring plate and a second spring plate, wherein the fixing base body is fixedly arranged in a computer case;

one end of the first spring plate is a first spring plate fixing end, the other end of the first spring plate is a first spring plate raising end, the first spring plate fixing end and the first spring plate raising end are sequentially arranged along the dismantling direction of the power supply, the first spring plate fixing end is fixed on the fixing base body, the first spring plate raising end is elastically raised upwards and is upwards convex to form a first clamping hook, and the first clamping hook faces the first spring plate fixing end;

the second shell fragment is located first shell fragment below, and second shell fragment one end is the second shell fragment stiff end, and the other end is the second shell fragment perk end, and the second shell fragment stiff end is fixed at first shell fragment perk end, and the second shell fragment perk end upwards elasticity perk to be formed with the second trip that epirelief to first shell fragment top, the second trip is towards first shell fragment stiff end.

Further, the second hook is located at one side of the first hook near the fixed end of the first elastic piece.

Further, a clearance hole is formed in the first elastic sheet at a position corresponding to the second hook, and the second hook passes through the clearance hole upwards and protrudes upwards to the upper part of the first elastic sheet.

Further, the second elastic piece fixed end is riveted at the first elastic piece raising end through a rivet.

Further, the first spring plate warped end continues to extend towards the direction deviating from the first spring plate fixed end to form the pressing part.

Further, the first hook forms a first hooking surface in the direction towards the fixed end of the first elastic piece, and the first hooking surface is an inclined surface with the top inclined towards the fixed end of the first elastic piece.

Further, the second hook forms a second hooking surface in the direction towards the fixed end of the second elastic piece, and the second hooking surface is an inclined surface with the top inclined towards the fixed end of the second elastic piece.

Further, the first elastic sheet and the second elastic sheet are formed by stamping and bending sheet metal parts.

After the scheme is adopted, the beneficial effects of the utility model are as follows:

(1) The first clamping hook and the second clamping hook are positioned at different positions, so that one end of the hooking limit two different-length power supplies in the detaching direction can be realized through the first clamping hook and the second clamping hook, and the two different-length power supplies can be conveniently fixed;

(2) Because the second shell fragment stiff end is fixed at first shell fragment perk end, when pressing first shell fragment perk end, will drive the fixed downward movement of second shell fragment, and then make second shell fragment perk end follow the downward movement, consequently no matter which trip hook power is adopted, all only need press first shell fragment perk end, just can make trip pine power, make the power dismantle more convenient.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic diagram of an exploded construction of the present utility model;

FIG. 3 is a schematic diagram of a first hook of the present utility model hooking a power supply;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is a schematic diagram illustrating a direction of the first hook yielding power supply of the present utility model;

FIG. 6 is a schematic diagram of a second hook of the present utility model for hooking a power supply;

fig. 7 is a partial enlarged view at B in fig. 6.

Description of the reference numerals: 1-fixed matrix, 2-first shell fragment, 3-second shell fragment, 4-first shell fragment stiff end, 5-first shell fragment perk end, 6-first trip, 7-second shell fragment stiff end, 8-second shell fragment perk end, 9-second trip, 10-avoidance hole, 11-rivet, 12-pressing part, 13-first hooking surface, 14-second hooking surface, 15-power.

Detailed Description

The utility model will be described in detail with reference to the accompanying drawings and specific embodiments.

The utility model provides a power supply fixing spring plate buckling structure compatible with two different lengths, as shown in fig. 1-7, the structure comprises a fixing base body 1, a first spring plate 2 and a second spring plate 3, wherein the fixing base body 1 is fixedly arranged in a computer case, the power supply 1 can only be installed in or removed from the computer case by forward and reverse straight line sliding along one path, namely, the power supply 1 can only be removed from the computer case by straight line movement along one direction (the direction is the removal direction of the power supply 15) after being installed in place, the other directions are limited by the computer case, the structure of the other limiting power supplies 15 is not particularly limited, the structure is the conventional arrangement of the power supply installation position in the computer case, the fixing base body 1 is arranged on the side edge of the power supply 1 at one end towards the removal direction, and for convenience in manufacturing, in the embodiment, the fixing base body 1 is the side wall of the computer case, the first spring plate 2 and the second spring plate 3 are formed by punching and bending sheet metal parts, and elastic deformation of the sheet metal parts enable the first spring plate 2 and the second spring plate 3 to have elasticity;

the first elastic sheet 2 has a first elastic sheet fixed end 4 at one end and a first elastic sheet raising end 5 at the other end, the first elastic sheet fixed end 4 and the first elastic sheet raising end 5 are sequentially arranged along the detaching direction of the power supply 15, the first elastic sheet fixed end 4 is fixed on the fixed base 1, and the fixing mode is not limited, in this embodiment, the first elastic sheet 2 is integrally arranged on the fixed base 1, the first elastic sheet raising end 5 is elastically raised upwards, and a first hook 6 is formed on the top surface in a protruding manner, the first hook 6 is used for hooking the power supply 15 towards the first elastic sheet fixed end 4, that is, in the detaching direction F of the power supply 15, in a preferred embodiment, the first hook 6 forms a first hooking surface 13 in the direction towards the first elastic sheet fixed end 4, and the first hooking surface 13 is an inclined plane with the top part inclined towards the first elastic sheet fixed end 4, so that the first hooking surface 13 is abutted on the power supply 15, at this moment, the power supply 15 generates an upward component force to the first hook 6, and further generates an upward force to the first raising end 8, so that the first raising end 8 is not accidentally pulled out of the power supply 15;

the second shell fragment 3 is located first shell fragment 2 below, and second shell fragment 3 one end is second shell fragment stiff end 7, and the other end is second shell fragment perk end 8, and second shell fragment stiff end 7 is fixed at first shell fragment perk end 5, specifically in this embodiment, second shell fragment stiff end 7 is riveted at first shell fragment perk end 5 through two rivets 11, and second shell fragment perk end 8 upwards elasticity perk to be formed with the second trip 9 that protrudes to first shell fragment 2 top, second trip 9 is located first trip 6 is close to one side of first shell fragment stiff end 4, specifically in this embodiment, second trip 9 transversely is provided with two by second shell fragment 3's both sides limit upwards buckling this moment respectively, first shell fragment 2 is formed with and keeps away position hole 10 in the position that corresponds second trip 9, second trip 9 upwards passes keep away position hole 10 to protruding to first 2 top, second trip 9 is towards first stiff end 4, and is preferably carried out in the second clamp 9, and is towards second shell fragment stiff end 15, and is in the second power 15 to be realized in the second clamp 9, and is inclined to the second power 15 to the second shell fragment stiff end 9, and is thereby the top of second shell fragment 15 is avoided making the second power to be the second power 15 to take off to the top 15.

In order to make the operation more convenient and labor-saving when the first hook 6 and the second hook 8 are withdrawn from the removal direction of the power supply 15, in a preferred embodiment, the pressing portion 12 is formed by extending the first spring raising end 5 further in a direction away from the first spring fixing end 4.

The specific use method is that when the power supply 15 with a longer size needs to be hooked, the bottom surface of the power supply 15 is pressed down on the first elastic sheet 2, the first hook 6 on the first elastic sheet 2 is hooked in the dismantling direction of the power supply 15, at the moment, the bottom surface of the power supply 15 is pressed down on the first elastic sheet 2, the first elastic sheet raising end 5 is downwards moved, the second elastic sheet fixing end 7 is fixed on the first elastic sheet raising end 5, so that the second elastic sheet 3 downwards moves along with the first elastic sheet raising end 5, the second elastic sheet raising end 8 caused by the fact that the bottom surface of the power supply 15 is downwards moved against the second hook 9 on the second elastic sheet 3 is downwards deformed, the second hook 9 is moved away from the power supply 15, the first hook 6 is moved away from the dismantling direction of the power supply 15 by pressing down the first elastic sheet raising end 5, and then the power supply 15 can be dismantled; when the power supply 15 with a shorter hooking size is needed, the second hook 9 is hooked in the disassembling direction of the power supply 15, when the power supply 15 is disassembled, the first elastic piece 2 is pressed down, the first elastic piece 2 drives the second elastic piece 3 to wholly descend, the second hook 9 can avoid the disassembling direction of the power supply 15, the structure is simple, the cost is saved, no matter what size of the power supply 15 is hooked, only the first elastic piece warping end 5 is required to be pressed down during disassembling, and the operation is very convenient.

The above embodiments are only preferred embodiments of the present utility model, and are not limited to the present utility model, and all equivalent changes made according to the design key of the present utility model fall within the protection scope of the present utility model.

Claims (8)

1. A power supply fixing spring plate buckling structure compatible with two different lengths is characterized in that: the fixing base (1) is used for being fixedly arranged in a computer case;

one end of the first elastic piece (2) is a first elastic piece fixing end (4), the other end of the first elastic piece fixing end is a first elastic piece raising end (5), the first elastic piece fixing end (4) and the first elastic piece raising end (5) are sequentially arranged along the dismounting direction of the power supply (15), the first elastic piece fixing end (4) is fixed on the fixing base body (1), the first elastic piece raising end (5) is elastically raised upwards and is provided with a first clamping hook (6) in an upward protruding mode, and the first clamping hook (6) faces the first elastic piece fixing end (4);

the second shell fragment (3) is located first shell fragment (2) below, and second shell fragment (3) one end is second shell fragment stiff end (7), and the other end is second shell fragment perk end (8), and second shell fragment stiff end (7) are fixed at first shell fragment perk end (5), and second shell fragment perk end (8) upwards elasticity perk to be formed with the second trip (9) of epirelief to first shell fragment (2) top, second trip (9) are towards first shell fragment stiff end (4).

2. The power fixing spring clip fastening structure compatible with two different lengths according to claim 1, wherein: the second clamping hook (9) is positioned at one side of the first clamping hook (6) close to the first elastic piece fixing end (4).

3. The power fixing spring clip fastening structure compatible with two different lengths according to claim 1, wherein: the first elastic sheet (2) is provided with a avoidance hole (10) at a position corresponding to the second clamping hook (9), and the second clamping hook (9) upwards penetrates through the avoidance hole (10) to protrude above the first elastic sheet (2).

4. The power fixing spring clip fastening structure compatible with two different lengths according to claim 1, wherein: the second spring piece fixed end (7) is riveted on the first spring piece tilting end (5) through a rivet (11).

5. The power fixing spring clip fastening structure compatible with two different lengths according to claim 1, wherein: the first spring piece warping end (5) continues to extend towards the direction deviating from the first spring piece fixing end (4) to form a pressing part (12).

6. The power fixing spring clip fastening structure compatible with two different lengths according to claim 1, wherein: the first hook (6) forms a first hooking surface (13) in the direction towards the first elastic piece fixing end (4), and the first hooking surface (13) is an inclined surface with the top inclined towards the first elastic piece fixing end (4).

7. The power fixing spring clip fastening structure compatible with two different lengths according to claim 1, wherein: the second hook (9) forms a second hooking surface (14) in the direction towards the second elastic piece fixing end (7), and the second hooking surface (14) is an inclined surface with the top inclined towards the second elastic piece fixing end (7).

8. The power fixing spring clip fastening structure compatible with two different lengths according to claim 1, wherein: the first elastic piece (2) and the second elastic piece (3) are formed by stamping and bending sheet metal parts.