阅读说明：本技术 锁持结构及具有该锁持结构的伺服器机箱 (Locking structure and server case with same ) 是由 陆文虎 李振垒 于 2020-05-19 设计创作，主要内容包括：一种锁持结构,用于将第一壳体锁合于第二壳体,所述锁持结构包括第一锁持部及第二锁持部,所述第一锁持部设置在所述第一壳体上,所述第二锁持部设置在所述第二壳体上,所述第一锁持部包括锁合部,所述锁合部包括尾部,所述第二锁持部包括阻挡部,所述阻挡部设置有圆周面,当沿第一方向按压所述第一壳体,以使得所述第一锁持部朝所述第二壳体运动时,所述第一锁持部收容于所述第二锁持部,且所述尾部靠设在所述阻挡部的顶部,再沿一第二方向推动所述第一壳体,使得所述尾部沿着所述阻挡部的圆周面滑动,直至所述尾部的末端抵持于所述阻挡部的一侧,以将所述第一壳体锁合于所述第二壳体。本发明还提供一种具有该锁持结构的伺服器机箱。(A locking structure for locking a first housing to a second housing, the locking structure comprising a first locking portion and a second locking portion, the first locking portion is provided on the first housing, the second locking portion is provided on the second housing, the first locking part comprises a locking part, the locking part comprises a tail part, the second locking part comprises a blocking part, the blocking part is provided with a circumferential surface, when the first shell is pressed along a first direction so that the first locking part moves towards the second shell, the first locking part is accommodated in the second locking part, and the tail part is arranged against the top of the blocking part and pushes the first shell along a second direction, and the tail part slides along the circumferential surface of the blocking part until the tail end of the tail part abuts against one side of the blocking part, so that the first shell is locked on the second shell. The invention also provides a server case with the locking structure.)

1. The utility model provides a structure is held to lock for with first casing lock in second casing, its characterized in that: the locking structure comprises a first locking portion and a second locking portion, the first locking portion is arranged on the first shell, the second locking portion is arranged on the second shell, the first locking portion comprises a locking portion, the locking portion comprises a tail portion, the second locking portion comprises a blocking portion, the blocking portion is provided with a circumferential surface, when the first shell is pressed along a first direction, so that the first shell moves towards the second shell, the first locking portion is contained in the second locking portion, the tail portion leans against the top of the blocking portion, the first shell is pushed along a second direction, the tail portion slides along the circumferential surface of the blocking portion until the tail end of the tail portion leans against one side of the blocking portion, and the first shell is locked on the second shell.

2. The lock holding structure of claim 1, wherein: the first locking portion further comprises a connecting portion, and the connecting portion is mounted on the first housing and accommodates the locking portion.

3. The lock holding structure of claim 2, wherein: the connecting portion extends to form an accommodating portion, the accommodating portion is used for accommodating the locking portion, a first mounting hole is formed in the first shell, a first mounting portion is further formed in the accommodating portion, and the first mounting portion penetrates through the first mounting hole.

4. The lock holding structure of claim 2, wherein: an accommodating groove is formed in the second locking portion, a second mounting portion is formed on one side of the accommodating groove, a second mounting hole is formed in the second shell, the second mounting portion corresponds to the second mounting hole in position, and the second mounting portion penetrates through the second mounting hole.

5. The lock holding structure according to claim 4, wherein: the locking portion further comprises a plate body and a pressing portion, the tail portion is arranged at one end of the plate body, the pressing portion is arranged at the other end, opposite to the plate body, of the tail portion, the plate body and the pressing portion are sequentially connected and integrally formed.

6. The lock holding structure according to claim 3, wherein: the accommodating part is provided with a first rotating hole, the locking part is correspondingly provided with a second rotating hole, the first shell is further correspondingly provided with a third rotating hole, and a rotating piece sequentially penetrates through the first rotating hole, the second rotating hole and the third rotating hole, so that the locking part is arranged on the connecting part and can rotate around the rotating piece.

7. The lock holding structure of claim 5, wherein: an opening is formed in the side wall of the first shell, the first locking portion is arranged on the inner side of the side wall of the first shell, and the pressing portion is exposed from the opening.

8. The lock holding structure of claim 5, wherein: lines are formed on one side of the pressing part.

9. The lock holding structure of claim 5, wherein: the locking part further comprises a bouncing part, the bouncing part extends from the connecting position of the plate body and the pressing part to the direction far away from the pressing part, and the bouncing part has elasticity.

10. A server machine case, includes first casing and second casing, its characterized in that: the server chassis further comprising a latching arrangement according to any of claims 1-9 for latching the first housing to the second housing.

Technical Field

The invention relates to a locking structure and a server case with the same.

Background

In the existing server case, due to the limitation of space, most of the server cases can only place a locking structure at the middle position of the upper cover of the server. Therefore, in the whole process of carrying the servo, the opening phenomenon may occur at certain positions, and the technician can easily scratch himself or herself due to the opening.

Disclosure of Invention

In view of the above, it is desirable to provide a lock structure and a server chassis having the same, which are space-saving and secure.

A locking structure for locking a first housing to a second housing, the locking structure comprising a first locking portion and a second locking portion, the first locking portion is provided on the first housing, the second locking portion is provided on the second housing, the first locking part comprises a locking part, the locking part comprises a tail part, the second locking part comprises a blocking part, the blocking part is provided with a circumferential surface, when the first shell is pressed along a first direction so that the first locking part moves towards the second shell, the first locking part is accommodated in the second locking part, and the tail part is arranged against the top of the blocking part and pushes the first shell along a second direction, and the tail part slides along the circumferential surface of the blocking part until the tail end of the tail part abuts against one side of the blocking part, so that the first shell is locked on the second shell.

Preferably, the first locking portion further includes a connecting portion mounted on the first housing and receiving the locking portion.

As a preferable scheme, the connecting portion extends to form an accommodating portion, the accommodating portion is used for accommodating the locking portion, the first housing is provided with a first mounting hole, the accommodating portion is further provided with a first mounting portion, and the first mounting portion penetrates through the first mounting hole.

Preferably, an accommodating groove is formed in the second locking portion, a second mounting portion is formed on one side of the accommodating groove, a second mounting hole is formed in the second housing, the second mounting portion corresponds to the second mounting hole in position, and the second mounting portion penetrates through the second mounting hole.

As a preferred scheme, the locking portion further comprises a plate body and a pressing portion, the tail portion is arranged at one end of the plate body, the pressing portion is arranged at the other end of the tail portion, opposite to the plate body, of the pressing portion, the tail portion, the plate body and the pressing portion are sequentially connected and integrally formed.

As a preferable scheme, the accommodating portion is provided with a first rotating hole, the locking portion is correspondingly provided with a second rotating hole, the first housing is further correspondingly provided with a third rotating hole, and a rotating member sequentially penetrates through the first rotating hole, the second rotating hole and the third rotating hole, so that the locking portion is mounted on the connecting portion and can rotate around the rotating member.

Preferably, an opening is opened in a side wall of the first housing, the first locking portion is disposed inside the side wall of the first housing, and the pressing portion is exposed from the opening.

Preferably, one side of the pressing part is provided with a texture.

Preferably, the locking portion further includes a spring portion extending from a connection portion of the plate body and the pressing portion to a direction away from the pressing portion, and the spring portion has elasticity. A server case comprises a first shell, a second shell and a locking structure, wherein the locking structure is used for locking the first shell to the second shell.

A server case comprises a first shell and a second shell, and the server case comprises a locking structure which is used for locking the first shell to the second shell.

In the application, the locking structures are symmetrically arranged on two sides of the server case, so that the balance and the locking strength of the server case are maintained, and the space at the upper part of the server case is not occupied. The design of the device not only ensures safety, but also saves space.

Drawings

Fig. 1 is an overall schematic diagram of a server chassis according to an embodiment of the present application.

Fig. 2 is an exploded view of the server chassis shown in fig. 1.

FIG. 3 is an exploded view of the latching mechanism in the server enclosure of FIG. 2.

FIG. 4 is an assembly view of the locking structure in the server chassis shown in FIG. 3.

FIG. 5 is a partially assembled view of a latch structure in the server enclosure of FIG. 3.

FIG. 6 is a schematic diagram of the locking structure in the server enclosure of FIG. 3.

FIG. 7 is a schematic diagram of the server enclosure of FIG. 3 with the latch mechanism unlocked.

Description of the main elements

Locking structure 100

First locking portion 10

Locking part 11

Tail 111

Plate body 112

Second rotation hole 1121

Pressing part 113

Texture 1131

Spring-up part 114

Rotating member 115

Connecting part 12

Housing part 121

First mounting portion 122

First rotary hole 123

Second locking part 20

Stopper 21

Receiving groove 22

Second mounting part 23

First case 200

First mounting hole 201

Third rotating hole 202

Opening 203

Second case 300

Top wall 301

Side wall 302

Second mounting hole 3021

Server case 400

The following detailed description will further illustrate the invention in conjunction with the above-described figures.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive effort based on the embodiments of the present invention, are within the scope of the present invention.

In the present invention, unless otherwise specified or limited, the term "connected" should be interpreted broadly, and may include, for example, a fixed connection, a detachable connection, an integral connection, a mechanical connection, a direct connection, an intermediate connection, and a connection between two elements. The specific meanings of the above terms in the present invention can be understood by those of ordinary skill in the art according to specific situations.

Referring to fig. 1 and 2, a server case 400 is provided. The server case 400 includes a locking structure 100, a first housing 200 and a second housing 300. The locking structure 100 is used for locking the first housing 200 to the second housing 300. The second housing 300 includes a top wall 301 and two side walls 302. The two side walls 302 are oppositely arranged and respectively connected with the top wall 301. The first housing 200 covers the sidewall 302. The server chassis 400 further drives the first housing 200 through the locking structure 100, so that one end of the top wall of the first housing 200 is engaged with the top wall 301.

It can be understood that, in this embodiment, after the first housing 200 is engaged with the top wall 301 of the second housing 300, the structure of the first housing 200 and the top wall 301 connected together may cover the outer sides of the two side walls 302. The locking structure 100 is disposed between the first housing 200 and the sidewall 302, so that the first housing 200 and the sidewall 302 are locked. That is, when the first housing 200 moves in a first direction, for example, a vertical direction, toward the second housing 300 and then moves in a second direction, for example, a horizontal direction, the first housing 200 is engaged with the top wall 301 and locked with the side wall 302 by the locking structure 100.

Referring to fig. 3, in the present embodiment, the first housing 200 is provided with a first mounting hole 201. The locking structure 100 includes a first locking portion 10 and a second locking portion 20. Specifically, the first locking portion 10 is disposed inside a sidewall of the first housing 200. The second locking portion 20 is disposed on the sidewall 302 of the second housing 300. The first locking portion 10 includes a locking portion 11. The second locking portion 20 includes a blocking portion 21. When the locking portion 11 abuts against one side of the blocking portion 21, the first locking portion 10 and the second locking portion 20 are locked, and the first housing 200 and the second housing 300 are locked.

In this embodiment, the first locking portion 10 further includes a connecting portion 12. The connecting portion 12 is used for receiving the locking portion 11. The connecting portion 12 is also used for being fixedly mounted on the first housing 200. Specifically, in the present embodiment, the connecting portion 12 is disposed inside the sidewall of the first housing 200 and can receive the locking portion 11. The connecting portion 12 is substantially rectangular. The connecting portion 12 is straight in the middle and has two ends extending to one side to form a receiving portion 121. The extending positions of the two ends of the accommodating part 121 are bent to one end far away from the accommodating part 121, and a first mounting part 122 is formed at the bent position.

In this embodiment, the position of the first mounting portion 122 matches the position of the first mounting hole 201 on the first housing 200. The first mounting portion 122 is mounted to the first mounting hole 201 such that the connecting portion 12 is fixedly disposed inside the side wall of the first housing 200. In this embodiment, the first mounting portion 122 may be a cylinder.

In this embodiment, the housing portion 121 is configured to house the lock portion 11. The locking portion 11 is rotatable with respect to the connecting portion 12. Specifically, a first rotation hole 123 is formed at a straight position of the receiving portion 121. The latch 11 is substantially plate-shaped. The locking portion 11 includes a tail portion 111, a plate body 112 and a pressing portion 113. The tail portion 111, the plate body 112 and the pressing portion 113 are connected in sequence and integrally formed, so as to form the locking portion 11.

The plate 112 is used for being rotatably connected with the connecting portion 12. In this embodiment, the plate 112 is partially arcuate in shape to facilitate rotation. The plate 112 is provided with a second rotation hole 1121. The second rotation hole 1121 corresponds to the position of the first rotation hole 123 of the receiving portion 121. The first housing 200 is further correspondingly provided with a third rotation hole 202. The locking portion 11 is mounted to the connecting portion 12 by passing a rotating member 115 through the first rotating hole 123, the second rotating hole 1121 and the third rotating hole 202 in sequence, and is rotatable around the rotating member 115. Meanwhile, the locking portion 11 is interposed between the connecting portion 12 and the side wall of the first housing 200.

The tail portion 111 is substantially in an elongated shape and is disposed at one end of the board 112. The pressing portion 113 is substantially rectangular and is disposed at the other end of the board 112 opposite to the tail portion 111. After the locking structure 100 is locked, the first housing 200 and the second housing 300 can be unlocked by pressing the pressing portion 113. Specifically, in the present embodiment, a texture 1131 with a large friction force is formed on one side of the pressing portion 113, and the texture is beneficial for a worker to press and is not easy to slip. In addition, the lines have obvious shape characteristics and good friction force, which is beneficial to finding the pressing part 113 and is easy to operate.

In this embodiment, the sidewall of the first housing 200 further defines an opening 203. The opening 203 may expose a side of the pressing portion 113 having the texture 1131, so as to facilitate pressing the pressing portion 113 through the opening 203 from the outside of the first housing 200.

In this embodiment, the latch 11 further includes a pop-up portion 114. The elastic portion 114 extends from the connection between the plate 112 and the pressing portion 113 in a direction away from the pressing portion 113. The elastic portion 114 is substantially in the shape of a strip, and an included angle formed between the extending direction of the elastic portion 114 and the extending direction of the pressing portion 113 is smaller than 90 degrees. In the present embodiment, the bouncing portion 114 and the tail portion 111 extend substantially in two opposite directions of the board body 112. The popups 114 are made of an elastic material. When the spring portion 114 is elastically deformed, an elastic force is generated. In this way, under the elastic force of the bouncing portion 114, the tail portion 111 disposed opposite to the bouncing portion 114 rotates accordingly.

It can be understood that, in the present embodiment, one end of the receiving portion 121 is partially extended and bent. In this way, when the locking portion 11 is accommodated in the accommodating portion 121, the plate body 112 and the pressing portion 113 are accommodated in the accommodating portion 121, the tail portion 111 extends out from one end of the accommodating portion 121 which is not completely extended and bent, and a gap is left between the pressing portion 113 and a side wall of the accommodating portion 121.

Referring to fig. 4 and 5, in the present embodiment, the second locking portion 20 is disposed on the second housing 300 and corresponds to the first locking portion 10. The second locking portion 20 is substantially rectangular. The second locking portion 20 is disposed on the sidewall 302 of the second housing 300. The second locking portion 20 includes the blocking portion 21. The second locking portion 20 is provided with a receiving groove 22. When the first housing 200 is pressed in the first direction, so that the first housing 200 moves toward the second housing 300 in the first direction, the first locking portion 10 can be received in the receiving groove 22. It is understood that in the present embodiment, the size of the receiving slot 22 is larger than that of the connecting portion 12, so that the connecting portion 12 is received in the receiving slot 22 and the elastic portion 114 abuts against the sidewall of the receiving slot 22.

In this embodiment, the blocking portion 21 is protruded from the bottom wall of the accommodating groove 22 and has a circumferential surface.

In this embodiment, two end walls and a side wall of the receiving slot 22 extend to one side and are respectively bent in a direction away from the receiving slot 22. The bend is formed with a second mounting portion 23. The side wall 302 of the second housing 300 is opened with a second mounting hole 3021. The position of the second mounting portion 23 corresponds to the position of the second mounting hole 3021. The second mounting portion 23 is fixedly mounted into the second mounting hole 3021, and the second locking portion 20 is disposed on the second housing 300.

In this embodiment, when the locking structure 100 is installed, the first locking portion 10 is first disposed inside the sidewall of the first housing 200. Specifically, referring to fig. 4 and 5 again, the locking portion 11 is first accommodated in the accommodating portion 121 of the connecting portion 12. Then, the side of the pressing portion 113 having the texture 1131 is aligned with the opening 203, and the first mounting portion 122 is aligned with the first mounting hole 201. The rotating member 115 sequentially passes through the first rotating hole 123, the second rotating hole 1121, and the third rotating hole 202, and the first mounting portion 122 is fixedly mounted in the first mounting hole 201, so that the locking portion 11 and the connecting portion 12 are mounted on the inner side of the first housing 200. At this time, the locking portion 11 is interposed between the connecting portion 12 and the first housing 200, the locking portion 11 can rotate relative to the connecting portion 12, and the side of the pressing portion 113 having the emboss 1131 is exposed from the opening 203.

Then, the second locking portion 20 is fixedly mounted on the sidewall 302 of the second housing 300. Specifically, the second mounting portion 23 of the second locking portion 20 is fixedly mounted to the second mounting hole 3021 of the second housing 300, and the second locking portion 20 is disposed on the second housing 300. At this time, the locking structure 100 is mounted, and the first locking portion 10 on the inner side of the first housing 200 corresponds to the position of the second locking portion 20 of the second housing 300.

Referring to fig. 6, when the server casing 400 is locked, the first housing 200 is first pressed along the first direction, for example, the vertical direction, and the first housing 200 approaches the second housing 300 along the first direction until the first locking portion 10 is received in the second locking portion 20. At this time, the tail portion 111 of the locking portion 11 is disposed against the top of the blocking portion 21. Next, the first housing 200 is pushed in a second direction, for example, a horizontal direction, so that the first housing 200 approaches toward the top wall 301 of the second housing 300. In the pushing process, the tail portion 111 of the locking portion 11 slides along the circumferential surface of the blocking portion 21 until the end of the tail portion 111 abuts against the side surface of the blocking portion 21. At this time, the first housing 200 is locked to the second housing 300. In addition, when the first housing 200 is locked to the second housing 300, the elastic portion 114 is pressed and abuts against the sidewall of the receiving slot 22 to accumulate the elastic force.

Referring to fig. 7, when the server housing 400 is unlocked, the pressing portion 113 may be operated, for example, the pressing portion 113 is pressed, so that the pressing portion 113 moves toward the elastic portion 114. At this time, the elastic force of the elastic part 114 abutting against the side wall of the accommodating groove 22 is released, so that the tail part 111 associated therewith rotates, that is, the tail part 111 rotates around the rotating member 115. Thus, the tail portion 111 will move along the opposite direction of the movement of the pressing portion 113, for example, move upward, and further slide along the side of the blocking portion 21 and disengage from the blocking portion 21, and meanwhile push the first housing 200 to move away from the top wall 301, for example, bounce the first housing 200. Thus, the first housing 200 and the second housing 300 are completely unlocked.

In this embodiment, two locking structures 100 may be symmetrically installed on the side wall of the server casing 400. Therefore, the balance and the locking strength of the server case 400 can be maintained, the problem that the first shell 200 and the second shell 300 are easily scratched when the first shell and the second shell are opened in the moving process is avoided, and the safety is ensured.

In this embodiment, the thickness of the locking structure 100, which is vertically disposed on the whole, is less than or equal to 6.4 mm in the width direction, so that the locking structure is applicable to the case where the width of all cases is limited, and the application range is wide.

In this embodiment, since the locking structure 100 is disposed on the sidewall of the server casing 400, the space on the upper portion of the server casing 400 is not occupied. Therefore, enough space is reserved for wiring of the radiator and the cable, and the space utilization rate is greatly improved.

In this embodiment, since the locking structure 100 is disposed on the sidewall of the server case 400, the server case 400 itself has a simple and beautiful appearance and is convenient to install, which not only saves labor cost, but also improves equipment efficiency.

In this embodiment, the locking structures 100 are disposed on two sides of the server casing 400, so that the security is ensured and the space is saved.

Although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the spirit and scope of the invention. Those skilled in the art can also make other changes and the like in the design of the present invention within the spirit of the present invention as long as they do not depart from the technical effects of the present invention. Such variations are intended to be included within the scope of the invention as claimed.