CN113543546B

CN113543546B - ARM architecture-based distributed data collaboration device

Info

Publication number: CN113543546B
Application number: CN202110746510.3A
Authority: CN
Inventors: 冷迪; 陈瑞; 李英
Original assignee: Shenzhen Power Supply Bureau Co Ltd
Current assignee: Shenzhen Power Supply Bureau Co Ltd
Priority date: 2021-07-01
Filing date: 2021-07-01
Publication date: 2023-06-09
Anticipated expiration: 2041-07-01
Also published as: CN113543546A

Abstract

The invention discloses a distributed data collaboration device based on ARM architecture, wherein: pressing the pressing rod to enable the pressing rod to press the clamping block, and enabling the clamping block to press the second spring to move towards the inside of the groove; the push-pull rod is pulled to slide along the second sliding groove, the sliding block and the limiting plate are blocked by the limiting surface, and the limiting plate rotates into the limiting groove through the first fixing rod so as to prevent the dust-proof plate from being pulled out; the push-pull rod is pulled back along the second chute, the first spring is extruded, the limiting plate is reset through the first fixing rod under the action of the elastic force of the first torsion spring and rotates out of the limiting groove, the clamping block is clamped into the clamping groove along with the sliding block, so that the dust-proof plate is taken out, and quick disassembly, repair and maintenance can be performed; the structure is simple, and the heat dissipation and dust prevention are convenient.

Description

ARM architecture-based distributed data collaboration device

Technical Field

The invention relates to the technical field of power equipment, in particular to a distributed data collaboration device based on an ARM architecture.

Background

In the prior art, the distributed network storage system adopts an expandable system structure, utilizes a plurality of storage servers to share storage load, utilizes the position servers to position storage information, can improve the reliability, availability and access efficiency of the system, is easy to expand, and has great development along with the development of technology, the distributed data collaboration device based on ARM architecture brings great convenience to people in distributed storage, and the types and the quantity of the distributed data collaboration device are increasing.

Most of the distributed data collaboration devices based on ARM architecture in the current market are inconvenient to overhaul and dust-proof, and the problem that the cooling plates are inconvenient to clean exists, so that the current distributed data collaboration devices based on ARM architecture are necessary to be improved.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the distributed data collaboration device based on the ARM architecture, which can be quickly disassembled, repaired and maintained; the structure is simple, and the heat dissipation and dust prevention are convenient.

In order to solve the above technical problems, the present invention provides a distributed data collaboration device based on an ARM architecture, including: the data storage box is detachably connected with the dust-proof plate on the data storage box and the overhaul plate on the data storage box; one side of the data storage box is provided with an installation groove for embedding the dust-proof plate; the data storage box is provided with a clamping groove, a first sliding groove is formed in the data storage box, and a limit groove is formed in one side of the first sliding groove; a first spring is arranged in the first chute, and one end of the first spring is connected with a sliding block; the sliding block is internally provided with a groove, a second spring is arranged in the groove, one end of the second spring is connected with a clamping block, one side of the sliding block is fixedly provided with a first fixing rod, one side of the first fixing rod is connected with a limiting plate, one side of the limiting plate is provided with a limiting surface, and a first torsion spring is connected between the first fixing rod and the limiting plate; the top of the sliding block is connected with a connecting block, the connecting block is connected with a push-pull rod, one side of the push-pull rod is connected with a pressing rod in a penetrating way, and a third spring is arranged between the pressing rod and the push-pull rod; the push-pull rod is installed in the outside of data storage box, and push-pull rod linkage connecting block is along the second spout reciprocating motion that the top of data storage box was seted up, wherein: pressing the pressing rod to enable the pressing rod to press the clamping block, and enabling the clamping block to press the second spring to move towards the inside of the groove; the push-pull rod is pulled to slide along the second sliding groove, the sliding block and the limiting plate are blocked by the limiting surface, and the limiting plate rotates into the limiting groove through the first fixing rod so as to prevent the dust-proof plate from being pulled out; the push-pull rod is pulled back along the second chute, the first spring is extruded, the limiting plate is reset through the first fixing rod and rotates out of the limiting groove under the action of the elastic force of the first torsion spring, and the clamping block is clamped into the clamping groove along with the sliding block, so that the dust-proof plate is taken out; a telescopic structure is formed between the sliding block and the first sliding groove through a first spring; the limiting plate and the sliding block form a rotary structure through a first fixing rod.

Wherein, the assembly groove has been seted up at data storage box top, and assembly groove internally connected has the dwang, and the dwang end connection has the card to hold the piece, and square groove has been seted up to access panel one side, wherein: the clamping block is rotated until the clamping block is flush with the square groove through the rotary rod, so that the clamping block does not block the access board any more, the access board is taken down, and the inside of the data storage box is overhauled.

Wherein, the slot has been seted up to mounting groove one side, and one side of dust guard is connected with the inserted block that holds with slot adaptation card, and wherein aim at the slot with the inserted block and insert, place the dust guard in the mounting groove.

The clamping block and the sliding block form a telescopic structure through a second spring, and inclined planes are arranged on two opposite sides of the clamping block.

Wherein, the connecting block, the push-pull rod and the sliding block are arranged as an integrated structure; the connecting block is in sliding connection with the second chute; the push-pull rod and the pressing rod form a telescopic structure through a third spring.

The interface is arranged on one side of the data storage box, a second fixing rod is fixed on one side of the interface, a cover plate is connected on one side of the second fixing rod, and a second torsion spring is connected between the cover plate and the second fixing rod; wherein: pulling up a cover plate, turning over the cover plate through a second fixing rod, enabling a second torsion spring to be twisted and deformed, and connecting a plug to be connected with an interface; after the plug is pulled out, the cover plate loses the blocking, and the cover plate is turned over and reset through the second fixing rod under the elastic action of the second torsion spring.

Wherein, apron one side is connected with the sealing block, wherein: the sealing block is embedded into the interface along with the overturning of the cover plate, and the interface is sealed.

Wherein, the cover plate and the sealing block are of an integrated structure.

Wherein, the square groove is set into the multiunit of symmetrical arrangement, and the rotatory structure is constituteed through the dwang between block and the assembly groove to the card.

The ARM architecture-based distributed data collaboration device has the following beneficial effects: pressing the pressing rod to enable the pressing rod to press the clamping block, and enabling the clamping block to press the second spring to move towards the inside of the groove; the push-pull rod is pulled to slide along the second sliding groove, the sliding block and the limiting plate are blocked by the limiting surface, and the limiting plate rotates into the limiting groove through the first fixing rod so as to prevent the dust-proof plate from being pulled out; the push-pull rod is pulled back along the second chute, the first spring is extruded, the limiting plate is reset through the first fixing rod under the action of the elastic force of the first torsion spring and rotates out of the limiting groove, the clamping block is clamped into the clamping groove along with the sliding block, so that the dust-proof plate is taken out, and quick disassembly, repair and maintenance can be performed; the structure is simple, and the heat dissipation and dust prevention are convenient.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic side view of a distributed data collaboration device based on an ARM architecture according to an embodiment of the present invention.

Fig. 2 is a schematic top view of a distributed data collaboration device based on an ARM architecture according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a push-pull rod of a distributed data collaboration device based on an ARM architecture according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a limiting board of a distributed data collaboration device based on an ARM architecture according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a cover plate of the distributed data collaboration device based on the ARM architecture according to an embodiment of the present invention.

Fig. 6 is an enlarged schematic view of the structure of fig. 1 a according to an embodiment of the present invention.

Fig. 7 is an enlarged schematic view of the structure of fig. 1B according to an embodiment of the present invention.

Fig. 8 is an enlarged schematic view of the structure of fig. 2C according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Fig. 1 to 8 show an embodiment of a distributed data collaboration device based on an ARM architecture according to the present invention.

The distributed data collaboration device based on ARM architecture in the embodiment comprises: the data storage box 1 is detachably connected with the dust-proof plate 3 on the data storage box 1 and the access plate 13 on the data storage box 1; one side of the data storage box 1 is provided with a mounting groove 2 for embedding the dust-proof plate 3. The data storage box 1 is provided with a clamping groove 22, a first sliding groove 16 is formed in the data storage box 1, and a limit groove 29 is formed in one side of the first sliding groove 16; the first sliding groove 16 is internally provided with a first spring 17, and one end of the first spring 17 is connected with a sliding block 18.

The inside recess 19 of seting up of slider 18, recess 19 internally mounted have second spring 20, and second spring 20 one end is connected with fixture block 21, and slider 18 one side is fixed with first dead lever 23, and first dead lever 23 one side is connected with limiting plate 24, and limiting plate 24 one side is equipped with spacing face 25, is connected with first torsional spring 26 between first dead lever 23 and the limiting plate 24.

The top of the sliding block 18 is connected with a connecting block 27, the connecting block 27 is connected with a push-pull rod 30, one side of the push-pull rod 30 is connected with a pressing rod 31 in a penetrating way, and a third spring 32 is arranged between the pressing rod 31 and the push-pull rod 30; the push-pull rod 30 is installed in the outside of data storage box 1, and push-pull rod 30 linkage connecting block 27 is along the second spout 28 reciprocating motion that the top of data storage box 1 was seted up, wherein:

pressing the pressing lever 31 to press the pressing lever 31 against the latch 21, the latch 21 pressing the second spring 20 to move toward the inside of the groove 19; the sliding rod 30 is pulled to slide along the second sliding groove 28, the sliding block 18 and the limiting plate 24 are blocked by the limiting surface 25, and the limiting plate 24 rotates into the limiting groove 29 through the first fixing rod 23 so as to prevent the dust-proof plate 3 from being pulled out;

the push-pull rod 30 is pulled back along the second sliding groove 28, the first spring 17 is extruded, the limiting plate 24 is reset through the first fixing rod 23 under the action of the elastic force of the first torsion spring 26 and rotates out of the limiting groove 29, and the clamping block 21 is clamped into the clamping groove 22 along with the sliding block 18, so that the dust-proof plate 3 is taken out.

During the implementation, the assembly groove 11 has been seted up at the top of data storage box 1, and assembly groove 11 internally connected has dwang 12, and dwang 12 end connection has the card to hold piece 15, and square groove 14 has been seted up to access panel 13 one side, wherein: the clamping block 15 is rotated, the clamping block 15 rotates through the rotary rod 12 until the clamping block 15 is flush with the square groove 14, the clamping block 15 does not block the access panel 13 any more, the access panel 13 is taken down, and the inside of the data storage box 1 is overhauled.

Preferably, the square grooves 14 are arranged in a plurality of groups symmetrically, and a rotating structure is formed between the clamping blocks 15 and the assembly grooves 11 through the rotating rods 12.

Wherein slot 4 has been seted up to mounting groove 2 one side, and one side of dust guard 3 is connected with the inserted block 5 that holds with the slot adaptation card, and wherein with inserted block 5 aim at slot 4 and insert, put dust guard 3 in mounting groove 2. The dustproof plate 3 and the insert block 5 are of an integrated structure, the size of the insert block 5 is slightly smaller than the size of the slot 4, the external dimension of the dustproof plate 3 is identical with the internal dimension of the mounting groove 2, the insert block 5 on one side of the dustproof plate 3 is aligned with the slot 4 to be inserted, and then the dustproof plate 3 is slowly placed into the mounting groove 2.

In specific implementation, the square groove 14 is provided with four groups, and the four groups of square grooves 14 are distributed on one side of the access panel 13 in an array mode, the size of the clamping block 15 is slightly smaller than that of the square groove 14, a rotating structure is formed between the clamping block 15 and the assembly groove 11 through the rotary rod 12, the clamping block 15 rotates through the rotary rod 12 until the clamping block 15 is flush with the square groove 14, the group of clamping blocks 15 do not block the access panel 13 any more, the other groups of clamping blocks 15 rotate and are flush with the square groove 14, and then the access panel 13 can be taken down.

Further, a telescopic structure is formed between the sliding block 18 and the first chute 16 through a first spring 17; the rotation structure is formed between the limiting plate 24 and the sliding block 18 through a first fixing rod 23. Wherein, the clamping block 21 and the sliding block 18 form a telescopic structure through the second spring 20, and inclined planes are arranged on two opposite sides of the clamping block 21.

In specific implementation, the connecting block 27, the push-pull rod 30 and the sliding block 18 are integrally arranged; the connecting block 27 is in sliding connection with the second chute 28; the push-pull rod 30 and the pressing rod 31 form a telescopic structure through a third spring 32.

In specific implementation, inclined planes are arranged on two sides of the clamping block 21, the pressing rod 31 is pressed, the pressing rod 31 extrudes the clamping block 21, the pressing rod 31 moves downwards until the maximum displacement distance is reached, the clamping block 21 extrudes the second spring 20 to move inwards towards the groove 19, meanwhile, the inclined planes on two sides of the clamping block 21 are only contacted with the clamping groove 22, the sliding block 18 can not be prevented from moving any more, the push-pull rod 30 can be smoothly pulled along the direction of the second sliding groove 28 at the moment, the sliding block 18 moves to enable the limiting plate 24 to move, the limiting surface 25 on one side of the limiting plate 24 is blocked when the limiting plate 24 moves, the limiting plate 24 rotates into the limiting groove 29 through the first fixing rod 23, and the position of the sliding block 18 when moving to the rightmost side is fixed under the elastic force of the first spring 17.

The inside of the sliding block 18 is provided with a groove 19, the inside of the groove 19 is provided with a second spring 20, one end of the second spring 20 is connected with a clamping block 21, one side of the data storage box 1 close to the clamping block 21 is provided with a clamping groove 22, one side of the sliding block 18 is fixedly provided with a first fixing rod 23, one side of the first fixing rod 23 is connected with a limiting plate 24, and one side of the limiting plate 24 is provided with a limiting surface 25;

the first torsion spring 26 is connected between the first fixing rod 23 and the limiting plate 24, one side of the sliding block 18 is connected with the connecting block 27, the push-pull rod 30 and the sliding block 18 are of an integrated structure, the connecting block 27 and the second sliding groove 28 are in sliding connection, a telescopic structure is formed between the push-pull rod 30 and the pressing rod 31 through the third spring 32, the push-pull rod 30 is pulled back, the first spring 17 is extruded, the limiting plate 24 is reset and rotated out of the limiting groove 29 through the first fixing rod 23 under the elastic force of the first torsion spring 26 until the clamping block 21 is clamped into the clamping groove 22 along with the sliding block 18, the dust-proof plate 3 is removed, the limiting groove 29 is formed in the top of the data storage box 1 close to the connecting block 27, the push-pull rod 30 is connected between the connecting block 27, the pressing rod 31 is connected to one side of the push-pull rod 30 close to the clamping groove 22 in a penetrating manner, and the third spring 32 is connected between the pressing rod 31 and the push-pull rod 30.

Further, an interface 6 is arranged on one side of the data storage box 1, a second fixing rod 7 is fixed on one side of the interface 6, a cover plate 8 is connected on one side of the second fixing rod 7, and a second torsion spring 9 is connected between the cover plate 8 and the second fixing rod 7; wherein: the cover plate 8 is pulled up, the cover plate 8 is turned over by the second fixing rod 7, and meanwhile, the second torsion spring 9 is twisted and deformed, so that the plug to be connected is connected with the interface 6; after the plug is pulled out, the cover plate 8 loses the blocking, and the cover plate 8 is turned over and reset through the second fixing rod 7 under the action of the elastic force of the second torsion spring 9.

Preferably, a sealing block 10 is connected to one side of the cover plate 8, wherein: the sealing block 10 is embedded into the interface 6 along with the cover plate 8 in a turnover way, so that the interface 6 is sealed. The cover plate 8 and the sealing block 10 are of an integral structure.

In specific implementation, the external dimension of the sealing block 10 is identical with the internal dimension of the interface 6, after the plug is pulled out, the cover plate 8 loses the blocking, the cover plate 8 can be turned over and reset through the second fixing rod 7 under the action of the elastic force of the second torsion spring 9, and the sealing block 10 is embedded into the interface 6 along with the turning over of the cover plate 8, so that the interface 6 is sealed, and dust prevention is facilitated.

In the embodiment of the distributed data collaboration device based on the ARM architecture, firstly, the insert 5 on one side of the dust-proof plate 3 is aligned to the slot 4, then the dust-proof plate 3 is slowly put into the mounting groove 2, then the pressing rod 31 is pressed, the pressing rod 31 presses the clamping block 21, the pressing rod 31 moves down until reaching the maximum displacement distance, the clamping block 21 presses the second spring 20 to move inwards towards the groove 19, meanwhile, the inclined planes on two sides of the clamping block 21 are only contacted with the clamping groove 22, the sliding block 18 can not be prevented from moving any more, at this time, the push-pull rod 30 can be smoothly pulled along the direction of the second sliding groove 28, the sliding block 18 moves to enable the limiting plate 24 to move, the limiting surface 25 on one side of the limiting plate 24 is blocked when the limiting plate 24 moves, the limiting plate 24 rotates into the limiting groove 29 through the first fixing rod 23, and the position when the sliding block 18 moves to the rightmost side is fixed under the elastic force of the first spring 17, so that the dust-proof plate 3 is prevented from being pulled out.

When the sliding block 18 is required to be disassembled, the push-pull rod 30 is pulled back, so that the first spring 17 is extruded, and meanwhile, the limiting plate 24 slowly resets and rotates out of the limiting groove 29 through the first fixing rod 23 under the action of the elastic force of the first torsion spring 26 until the clamping block 21 is clamped into the clamping groove 22 along with the sliding block 18 to be fixed, and then the dust-proof plate 3 is taken down, so that cleaning is facilitated.

When the interface 6 is needed to be used, the cover plate 8 is pulled up, the cover plate 8 overturns through the second fixing rod 7 and simultaneously makes the second torsion spring 9 twist and deform, the plug to be connected is connected with the interface 6, meanwhile, the plug can block the cover plate 8 and prevent the cover plate 8 from being closed, after the plug is pulled down, the cover plate 8 loses blocking, the cover plate 8 can be overturned and reset through the second fixing rod 7 under the action of the elastic force of the second torsion spring 9, the sealing block 10 is embedded into the interface 6 along with the overturning of the cover plate 8, the interface 6 is sealed, dust prevention is facilitated, when maintenance is needed, the clamping block 15 rotates until the clamping block 15 is leveled with the square groove 14 through the rotating rod 12, the group of clamping blocks 15 do not block the maintenance plate 13 any more, the other group of clamping blocks 15 rotate and the square groove 14 are leveled, and then the maintenance plate 13 can be taken down, and the maintenance of the inside the data storage box 1 is facilitated.

Claims

1. An ARM architecture-based distributed data collaboration apparatus, comprising: the device comprises a data storage box, a dust-proof plate detachably connected to the data storage box and an access plate detachably connected to the data storage box;

one side of the data storage box is provided with an installation groove for embedding the dust-proof plate;

the data storage box is provided with a clamping groove, a first sliding groove is formed in the data storage box, and a limit groove is formed in one side of the first sliding groove; a first spring is arranged in the first sliding groove, and one end of the first spring is connected with a sliding block;

the sliding block is internally provided with a groove, a second spring is arranged in the groove, one end of the second spring is connected with a clamping block, one side of the sliding block is fixedly provided with a first fixing rod, one side of the first fixing rod is connected with a limiting plate, one side of the limiting plate is provided with a limiting surface, and a first torsion spring is connected between the first fixing rod and the limiting plate;

the top of the sliding block is connected with a connecting block, the connecting block is connected with a push-pull rod, one side of the push-pull rod is connected with a pressing rod in a penetrating way, and a third spring is arranged between the pressing rod and the push-pull rod; the push-pull rod is installed the outside of data storage box, the push-pull rod is linked the connecting block is along the second spout reciprocating motion that the top of data storage box was seted up, wherein:

pressing the pressing rod to enable the pressing rod to press the clamping block, and enabling the clamping block to press the second spring to move towards the inside of the groove; the sliding rod is pulled to slide along the second sliding groove, the sliding block and the limiting plate are blocked by the limiting surface, and the limiting plate rotates into the limiting groove through the first fixing rod so as to prevent the dust-proof plate from being pulled out;

the push-pull rod is pulled back along the second sliding groove, the first spring is extruded, the limiting plate is reset and rotated out of the limiting groove through the first fixing rod under the action of the elastic force of the first torsion spring, and the clamping block is clamped into the clamping groove along with the sliding block, so that the dust-proof plate is taken out;

the sliding block and the first sliding groove form a telescopic structure through a first spring, and the limiting plate and the sliding block form a rotary structure through a first fixing rod.

2. The distributed data collaboration device based on ARM architecture of claim 1, wherein the top of the data storage box is provided with an assembly groove, the interior of the assembly groove is connected with a rotating rod, the end part of the rotating rod is connected with a clamping block, one side of the access board is provided with a square groove, wherein:

the clamping block is rotated, and the clamping block rotates through the rotary rod until the clamping block is flush with the square groove, so that the clamping block does not block the access panel any more, the access panel is taken down, and the inside of the data storage box is overhauled.

3. The ARM architecture-based distributed data collaboration device of claim 1, wherein a slot is formed in one side of the mounting slot, an insert block which is clamped with the slot in an adapting mode is connected to one side of the dust-proof plate, the insert block is inserted in the slot in an aligning mode, and the dust-proof plate is placed in the mounting slot.

4. The distributed data collaboration device based on ARM architecture as claimed in claim 1, wherein the clamping block and the sliding block form a telescopic structure through the second spring, and inclined planes are arranged on two opposite sides of the clamping block.

5. The ARM architecture-based distributed data collaboration device as defined in claim 1, wherein the connection block, the push-pull rod and the slider are integrally formed; the connecting block is in sliding connection with the second sliding groove; the push-pull rod and the pressing rod form a telescopic structure through the third spring.

6. The distributed data collaboration device based on the ARM architecture of claim 1, wherein an interface is formed on one side of the data storage box, a second fixing rod is fixed on one side of the interface, a cover plate is connected on one side of the second fixing rod, and a second torsion spring is connected between the cover plate and the second fixing rod, wherein:

pulling up the cover plate, turning over the cover plate through the second fixing rod, enabling the second torsion spring to twist and deform at the same time, and connecting a plug to be connected with the interface; after the plug is pulled out, the cover plate loses the blocking, and the cover plate is turned over and reset through the second fixing rod under the action of the elastic force of the second torsion spring.

7. The distributed data collaboration device based on the ARM architecture of claim 6, wherein a sealing block is connected to one side of the cover plate, and wherein: the sealing block is embedded into the interface along with the cover plate in a turnover way, so that the interface is sealed.

8. The ARM architecture-based distributed data coordination device of claim 7, wherein the cover plate and the sealing block are integrally formed.

9. The distributed data collaboration device based on ARM architecture as claimed in claim 2, wherein the square grooves are arranged in a plurality of groups symmetrically, and the clamping blocks and the assembly grooves form a rotary structure through the rotary rods.