CN113448407A

CN113448407A - Reinforced structure and computer with same

Info

Publication number: CN113448407A
Application number: CN202110815218.2A
Authority: CN
Inventors: 肖奕
Original assignee: China University of Geosciences Beijing
Current assignee: China University of Geosciences Beijing
Priority date: 2021-07-19
Filing date: 2021-07-19
Publication date: 2021-09-28
Anticipated expiration: 2041-07-19
Also published as: CN113448407B

Abstract

The invention is suitable for the field of computer manufacturing, and provides a reinforced structure and a computer with the same, wherein the reinforced structure comprises a support frame and a resisting piece, wherein the resisting piece is arranged on the support frame through a force unloading assembly and is used for bearing external impact; the force unloading assembly is arranged between the support frame and the resisting piece, is provided with a plurality of groups, is arranged on the resisting piece and is used for dispersing the impact born by the resisting piece. When the computer receives the impact from the outside, the external impact firstly acts on the resisting part, the resisting part receives the impact back, can transmit the impact force to the power of unloading subassembly, the power of unloading subassembly will be mostly transferred, make the impact force disperse along the trend of support frame, only few impact force directions can be perpendicular to machine case surface, transmit to quick-witted case through the power of unloading subassembly, the impact force after the power of unloading subassembly uninstallation is not enough to damage quick-witted case this moment, make quick-witted case under the condition that does not change the wall thickness, can use in harsher environment.

Description

Reinforced structure and computer with same

Technical Field

The invention belongs to the field of computer manufacturing, and particularly relates to a reinforced structure and a computer with the same.

Background

The computer is a device frequently used in daily life at present, can carry out numerical calculation and logic calculation, and also has the function of storage and memory; the intelligent electronic device can be operated according to a program, and can automatically process mass data at a high speed.

Computers are used in various fields, and when the computers are used in a severe environment, various factors affecting the performance of the computers need to be specifically designed to ensure the system structure, the electrical characteristics, the mechanical and physical structure, and the like of the computers, which are called ruggedized computers.

The existing ruggedized computer generally adopts a mode of increasing the thickness of a case to enhance the performance of the computer against external impact, but the mode often causes the speed of heat dissipation inside the computer to be reduced, and the protection strength of core components in the computer is not enough.

Disclosure of Invention

The embodiment of the invention aims to provide a reinforced structure and a computer with the same, and aims to solve the problems that the existing reinforced computer enhances the performance of resisting external impact of the computer by increasing the thickness of a case, so that the internal heat dissipation speed of the computer is reduced, and the protection strength of the internal core components of the computer is insufficient.

The embodiment of the present invention is achieved in that, in one aspect, a reinforcing structure includes:

the supporting frame is arranged around the case, and at least one supporting frame is arranged in the transverse direction and the longitudinal direction of the case;

the resisting piece is arranged on the supporting frame through the force unloading assembly and is used for bearing external impact;

the force unloading assembly is arranged between the support frame and the resisting piece, is provided with a plurality of groups, is arranged on the resisting piece and is used for dispersing the impact born by the resisting piece.

Preferably, the resisting piece comprises a plurality of bearing sections and a plurality of flexible sections, and the bearing sections and the flexible sections are arranged at intervals and are connected end to end.

Preferably, the force-releasing assembly comprises:

one end of the transmission part is arranged on the bearing section, and the other end of the transmission part penetrates through the wall thickness of the support frame in a sliding manner;

one end of the first connecting rod is hinged and installed at one end of the transmission part close to the bearing section, and the other end of the first connecting rod is installed in a first sliding groove on the supporting frame in a sliding mode;

and the second connecting rod is positioned between the support frame and the case, one end of the second connecting rod is hinged to the other end of the transmission part, and the other end of the second connecting rod is slidably arranged in a second sliding groove in the support frame.

In another aspect, a computer having a reinforced structure includes:

a chassis;

the reinforcing structure is arranged on the case and used for resisting external impact;

the core hardware is arranged inside the case;

the first-level protection units are arranged outside the case and used for enhancing the protection of the case on the core hardware;

the secondary protection units are arranged in the case, distributed around the core hardware and used for resisting the impact of the core hardware from the outside;

and the trigger assembly is arranged between the case and the support frame, is arranged on the case and is used for triggering the protection of the primary protection unit and the secondary protection unit on the core hardware.

Preferably, the primary guard unit includes:

the storage shell is arranged outside the case, and a primary sliding groove is formed in the storage shell;

the primary force storage part is arranged in the primary sliding groove;

the first-stage protection plate is slidably arranged in the first-stage sliding groove;

the first-stage barrier film is arranged at the outlet of the first-stage sliding groove and used for blocking the first-stage protection plate from sliding out of the first-stage sliding groove;

when the first-level protection plate receives the impulsive force of the first-level power storage part, the first-level protection plate breaks the first-level barrier film and slides out of the first-level sliding groove, and the slid-out first-level protection plate is attached to the outer surface of the case and located on one side of the core hardware.

Preferably, the secondary protection unit includes:

the mounting seat is mounted in the case, positioned around the core hardware and internally provided with a secondary sliding groove;

the second-stage force storage part is arranged in the second-stage sliding groove;

the second-stage protection plate is slidably arranged in the second-stage sliding groove;

the second-stage barrier film is arranged at an outlet of the second-stage sliding chute and used for blocking the second-stage protection plate from sliding out of the second-stage sliding chute;

the baffle is arranged between the secondary force storage part and the secondary protection plate, is positioned in the secondary sliding groove and is used for compressing and storing the secondary force storage part in the secondary sliding groove;

the elastic sheet is arranged in the extrusion hole on the side wall of the secondary chute and used for limiting the position of the baffle;

one end of the baffle is inserted into the extrusion hole.

Preferably, the trigger assembly comprises:

the guide piece is arranged on the case;

the pressing block is slidably arranged in the guide piece;

the elastic piece is arranged in the guide piece, and one end of the elastic piece is connected with the pressing block;

one end of the extension rod is connected with the pressing block;

the trigger piece is connected with the other end of the extension rod and used for triggering the primary protection unit and the secondary protection unit to protect the core hardware;

the trigger piece penetrates through the storage shell, the case and the mounting seat, and the trigger piece compresses and stores the primary force storage piece in the primary sliding groove in a normal state; after the trigger piece moves, the primary force storage piece is released instantly, the baffle plate is extruded out of the extrusion hole along with the movement, and the secondary force storage piece is released instantly.

Preferably, the trigger piece comprises a main body, a first trigger hole and a second trigger hole, wherein the first trigger hole is arranged on the main body and used for releasing the primary power storage piece, the second trigger hole is used for releasing the secondary power storage piece, and a blocking part used for blocking ejection of the primary power storage piece is arranged between the first trigger hole and the second trigger hole.

According to the reinforced structure and the computer with the structure provided by the embodiment of the invention, when the computer is impacted from the outside, the external impact firstly acts on the resisting piece, the impact force is transmitted to the force unloading assembly after the resisting piece is impacted, most of the impact force is transferred by the force unloading assembly, so that the impact force is dispersed along the trend of the supporting frame, only a small part of the impact force is vertical to the surface of the case and is transmitted to the case through the force unloading assembly, and the impact force unloaded by the force unloading assembly is not enough to damage the case, so that the case can be used in a worse environment under the condition that the wall thickness is not changed. The problem of current ruggedized computer strengthen the performance that the computer resisted external shock through increasing quick-witted case thickness can cause the inside heat of computer to scatter and disappear and reduce is solved.

Drawings

FIG. 1 is a front view of a reinforcing structure provided by an embodiment of the present invention;

FIG. 2 is a schematic view illustrating the distribution of supporting frames in a reinforcing structure according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a protective assembly in a reinforced structure according to an embodiment of the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 1;

FIG. 5 is an enlarged view of FIG. 3 at B;

FIG. 6 is an enlarged view of FIG. 5 at C;

fig. 7 is a three-dimensional view of a trigger in a reinforcing structure according to an embodiment of the present invention.

In the drawings: a chassis 1; a support frame 2; a resistant member 3; a bearing section 30; a flexible section 31; core hardware 4; a primary guard unit 5; a storage case 50; a primary chute 51; primary power storage member 52; a primary guard plate 53; a first-stage barrier film 54; a secondary protection unit 6; a mounting base 60; a secondary chute 61; a secondary power storage member 62; a baffle 63; a spring plate 64; a secondary guard plate 65; a secondary barrier film 66; a force-releasing assembly 7; a transmission member 70; the first link 71; a second link 72; a first chute 73; a second chute 74; a trigger assembly 8; a briquetting 80; a spreader bar 81; a trigger 82; a main body 820; a first trigger hole 821; a second trigger aperture 822; a blocking portion 823; a guide 83; an elastic member 84.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1-2, a structure diagram of a reinforced structure and a computer having the same is provided for an embodiment, where the reinforced structure includes:

the supporting frames 2 are arranged around the case 1, and at least one of the supporting frames 2 is arranged in the transverse direction and the longitudinal direction of the case 1;

the resisting piece 3 is arranged on the supporting frame 2 through the force unloading assembly 7 and is used for bearing external impact;

and the force unloading assemblies 7 are arranged between the support frame 2 and the resisting piece 3, are provided with a plurality of groups, are arranged on the resisting piece 3 and are used for dispersing the impact borne by the resisting piece 3.

In a case of this embodiment, when the computer receives the impact from the outside, the external impact first acts on the resisting member 3, after the resisting member 3 receives the impact, the impact force is transmitted to the unloading assembly 7, the unloading assembly 7 transfers most of the impact force, so that the impact force is dispersed along the moving direction of the supporting frame 2, only a small part of the impact force direction is perpendicular to the surface of the case 1, and the impact force is transmitted to the case 1 through the unloading assembly 7, at this time, the impact force unloaded by the unloading assembly 7 is not enough to damage the case 1, so that the case 1 can be used in a worse environment without changing the wall thickness. The problem of current ruggedized computer strengthen the performance that the computer resisted external shock through increasing quick-witted case thickness can cause the inside heat of computer to scatter and disappear and reduce is solved.

In one aspect of this embodiment, the resistance element 3 comprises a plurality of force bearing segments 30 and a plurality of flexible segments 31, wherein the force bearing segments 30 and the flexible segments 31 are arranged at intervals and are connected end to end. The force unloading assemblies 7 arranged on the force bearing sections 30 at different positions can play a role in unloading when different positions of the resisting piece 3 are impacted.

As shown in fig. 4, in one embodiment, the force-removing assembly comprises:

one end of the transmission piece 70 is arranged on the bearing section 30, and the other end of the transmission piece slides through the wall thickness of the support frame 2;

one end of the first connecting rod 71 is hinged to one end of the transmission member 70 close to the bearing section 30, and the other end of the first connecting rod is slidably mounted in a first sliding groove 73 on the support frame 2;

and a second connecting rod 72, which is located between the support frame 2 and the cabinet 1, and has one end hinged to the other end of the transmission member 70 and the other end slidably mounted in a second sliding groove 74 on the support frame 2.

In the specific implementation process of this embodiment, when the bearing section 30 is impacted to displace, the transmission member 70 is driven to move, so that the first connecting rod 71 and the second connecting rod 72 respectively abut against the edges of the first sliding groove 73 and the second sliding groove 74, a plurality of reinforcing triangles are formed between the bearing section 30 and the support frame 2, and the bearing capacity of the support frame 2 and the bearing section 30 is enhanced.

On the other hand, as shown in fig. 1 and 3-6, in one embodiment, the computer with a reinforcement structure includes:

a chassis 1;

the reinforcing structure is arranged on the case 1 and used for resisting external impact;

the core hardware 4 is arranged inside the case 1;

the primary protection units 5 are arranged outside the case 1 and used for enhancing the protection of the case 1 on the core hardware 4;

the secondary protection units 6 are arranged in the case 1, distributed around the core hardware 4 and used for resisting the impact of the core hardware 4 from the outside;

and the trigger component 8 is arranged between the case 1 and the support frame 2, is arranged on the case 1, and is used for triggering the protection of the primary protection unit 5 and the secondary protection unit 6 on the core hardware 4.

In a condition of this embodiment, when the computer receives great external force to strike, reinforced structure is not enough to resist external impact for support frame 2 begins to warp, and the support frame 2 extrusion trigger assembly 8 that warp triggers a plurality of one-level protective unit 5 and a plurality of second grade protective unit 6 are triggered to trigger assembly 8, provide the reinforcing protection of pertinence to core hardware 4, have solved the problem that current reinforcement computer is not enough to the protection dynamics of core component.

As shown in fig. 5 and 6, in one embodiment, the primary guard unit 5 includes:

a storage shell 50 installed outside the cabinet 1 and having a first-stage sliding groove 51 therein;

a primary power storage member 52 installed inside the primary chute 51;

a primary protection plate 53 slidably mounted in the primary slide groove 51;

the first-stage barrier film 54 is arranged at the outlet of the first-stage slide groove 51 and used for blocking the first-stage protection plate 53 from sliding out of the first-stage slide groove 51;

when the primary protection plate 53 is subjected to the impulsive force of the primary force accumulation member 52, the primary protection plate 53 breaks the primary barrier film 54 and slides out of the primary sliding groove 51, and the slid-out primary protection plate 53 is attached to the outer surface of the case 1 and is positioned on one side of the core hardware 4. A plurality of first-stage protection plates 53 extend out simultaneously, the wall thickness of the case 1 on one side of the core hardware 4 is thickened, and the capacity of resisting external force is enhanced.

As shown in fig. 5 and 6, in one embodiment, the secondary protection unit 6 includes:

the mounting seat 60 is mounted inside the case 1, is positioned around the core hardware 4, and is internally provided with a secondary sliding groove 61;

a secondary power storage member 62 mounted in the secondary chute 61;

the secondary protection plate 65 is slidably arranged in the secondary sliding groove 61;

the secondary barrier film 66 is arranged at the outlet of the secondary slide groove 61 and used for blocking the secondary protection plate 65 from sliding out of the secondary slide groove 61;

the baffle 63 is arranged between the secondary force storage part 62 and the secondary protection plate 65, is positioned in the secondary sliding groove 61, and is used for compressing and storing the secondary force storage part 62 in the secondary sliding groove 61;

the elastic sheet 64 is arranged in the extrusion hole on the side wall of the secondary sliding groove 61 and used for limiting the position of the baffle 63;

one end of the baffle 63 is inserted into the extrusion hole.

As shown in fig. 3 and 5-6, in one embodiment, the trigger assembly 8 includes:

a guide 83 mounted on the cabinet 1;

a press block 80 slidably mounted in the guide 83;

an elastic member 84 installed in the guide member 83, and having one end connected to the pressing block 80;

one end of the extension rod 81 is connected with the pressing block 80;

the trigger 82 is connected with the other end of the extension rod 81 and used for triggering the primary protection unit 5 and the secondary protection unit 6 to protect the core hardware 4;

the trigger 82 penetrates through the storage shell 50, the case 1 and the mounting seat 60, and the trigger 82 compresses and stores the primary force storage part 52 in the primary sliding groove 51 under the normal state; trigger member 82, upon movement, momentarily releases primary power member 52, which, as it moves, pushes flapper 63 out of the extrusion orifice, and momentarily releases secondary power member 62.

In one aspect of this embodiment, and as shown in connection with FIG. 7, the trigger member 82 includes a main body 820, a first trigger aperture 821 provided in the main body 820 for releasing the primary power member 52, and a second trigger aperture 822 for releasing the secondary power member 62, with a blocking portion 823 provided between the first and

second trigger apertures

821, 822 for blocking ejection of the primary power member 52.

The working principle among the primary protection unit 5, the secondary protection unit 6 and the trigger component 8 is as follows: after the supporting frame 2 is deformed under stress, the supporting frame 2 extrudes the pressing block 80 in the trigger assembly 8, the pressing block 80 drives the extension rod 81 to move, and further the trigger piece 82 is pushed to move, when the trigger piece 82 is static, the blocking part 823 compresses the first-level force storage piece 52 in the first-level sliding groove 51, when the trigger piece 82 moves, the blocking part 823 is staggered with the first-level force storage piece 52, when the first-level force storage piece 52 is right opposite to the first trigger hole 821, the first-level force storage piece 52 is released instantly to act on the first-level protection plate 53, so that the first-level protection plate 53 breaks the first-level barrier film 54 and slides out of the first-level sliding groove 51, and the protection of the core hardware 4 is enhanced. When the trigger piece 82 moves continuously, the trigger piece 82 extrudes the baffle 63, the elastic sheet 64 deforms, the baffle 63 is pushed out from the extrusion hole, the secondary force accumulation piece 62 is opposite to the second trigger hole 822, the secondary force accumulation piece 62 releases instantly and acts on the secondary protection plate 65, the secondary protection plate 65 breaks the secondary barrier film 66 and slides out of the secondary sliding groove 61, the protection of the core hardware 4 is enhanced again, and the core hardware 4 is enclosed between the first-level protection plates 53 and the second-level protection plates 65.

It should be noted that the primary power storage member 52, the secondary power storage member 62 and the elastic member 84 may be springs as shown in fig. 5, and other elastic members such as silica gel column, elastic bellows and the like may be used instead of the springs, which is not limited in this embodiment.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A reinforcing structure, comprising:

2. The reinforcement structure of claim 1, wherein the resistance elements comprise a plurality of load bearing segments and a plurality of compliant segments, the load bearing segments and compliant segments being spaced apart and connected end to end.

3. The reinforcement structure of claim 2, wherein the force relief assembly comprises:

4. A computer having a reinforced structure, comprising:

a chassis;

the reinforcing structure of any one of claims, mounted on a chassis for resisting external impacts;

the core hardware is arranged inside the case;

5. The computer with a ruggedized structure of claim 4, wherein the primary protection unit comprises:

the primary force storage part is arranged in the primary sliding groove;

6. The computer with a reinforcing structure of claim 5, wherein the secondary protection unit comprises:

one end of the baffle is inserted into the extrusion hole.

7. The computer with a ruggedized structure of claim 6, wherein the trigger assembly comprises:

the guide piece is arranged on the case;

the pressing block is slidably arranged in the guide piece;

one end of the extension rod is connected with the pressing block;

8. The computer with a reinforcing structure according to claim 7, wherein said trigger member includes a main body, a first trigger hole provided in the main body for releasing the primary power storage member, and a second trigger hole for releasing the secondary power storage member, and a blocking portion for blocking ejection of the primary power storage member is provided between the first trigger hole and the second trigger hole.