CN210865624U

CN210865624U - Data storage device

Info

Publication number: CN210865624U
Application number: CN201921577585.8U
Authority: CN
Inventors: 朱鸿颖涛
Original assignee: Chengdu Weiyu Technology Co ltd
Current assignee: Chengdu Weiyu Technology Co ltd
Priority date: 2019-09-20
Filing date: 2019-09-20
Publication date: 2020-06-26
Anticipated expiration: 2029-09-20

Abstract

The utility model discloses a data storage device, the utility model discloses the data storage portion and the data processing portion of split have been set up, and in the data storage portion assembled the write-in portion upper cover of data processing portion with the male mode, utilize the data transmission of spring thimble subassembly as longitudinal direction to lead simultaneously, can overcome the contact failure that the vibrations of longitudinal direction lead to, utilize simultaneously can rotatory link assembly and spring subtend or dorsad drive, realize the symmetrical output enable, make horizontal amplitude center put at the central point and match with spring thimble subassembly, avoid the vibrations damage to spring thimble subassembly.

Description

Data storage device

Technical Field

The utility model relates to a storage device's technical field of structure mainly relates to a guarantee data reliable transmission's a data storage device under vibrations environment.

Background

At present, the data storage of the aerial photography instrument on the market generally has 2 methods, one method is that the aerial photography instrument is internally provided with a storage module, the module can not be taken out and replaced, if the aerial photography instrument is full of data, the data can be reused only after being copied and deleted, and the operation time is wasted; the second type is that the aerial photography appearance has CF card socket, inserts the CF card, with data storage in the CF card, nevertheless because the unmanned aerial vehicle vibration when taking off, navigation, landing is great, the fixed of CF card and buckle can often be shaken loose, leads to data storage to go wrong.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a data storage device, the device is dedicated to solving and can guarantee reliable signal transmission and can realize the split to data storage part and data processing part fast under the shock condition.

The utility model discloses a following technical scheme realizes:

a data storage device is provided, which comprises a data storage unit,

comprises a storage module and a processing module,

the lower side surface of the storage module is provided with a spring thimble A head, the upper side surface of the processing module is provided with a spring thimble B head which is in butt joint and matching with the spring thimble A head,

the storage module receives data sent by the processing module through the head A of the spring thimble and the head B of the spring thimble;

the storage module and the processing module are arranged in parallel.

The utility model firstly sets the traditional data storage part and the data processing part as a storage module and a processing module respectively and independently; meanwhile, a spring thimble A head is arranged on the storage module, a spring thimble B head is arranged on the processing module, and reliable signal connection is realized under the vibration condition by utilizing the matching of the spring thimble A head and the spring thimble B head, wherein the spring thimble A head and the spring thimble B head are of a spring thimble assembly structure, one end of the structure is composed of a guide cylinder, a built-in spring and a thimble, and the other end of the structure is of a slot structure. The two cooperation realizes leading and meets, even also can guarantee it to switch on under the condition of high-speed vibrations, the utility model discloses above-mentioned scheme specially adapted aerophotographic appearance's storage design compares in the integration in traditional aerophotographic appearance, and quick split can be realized to this structure, need not to go to delete storage data through the processing part, directly replace standard storage module can, compare in traditional CF card formula storage device, although CF card formula storage device also is processing part and storage part separation, but the connection of CF card is the metal pin piece guide of metal pin and CF card and connects, and its anti-seismic performance is relatively poor.

Another data storage device:

on the basis of the data storage device, the head A of the spring thimble and the head B of the spring thimble are configured with any of the following situations:

case 1: the head A of the spring thimble is a male head of the spring thimble, and the head B of the spring thimble is a female head of the spring thimble;

case 2: the spring thimble A head is a spring thimble female head, and the spring thimble B head is a spring thimble male head.

In order to realize the encapsulation to storage module, processing module respectively to and realize quick split, the utility model discloses another kind of data storage device has still been set up:

on the basis of the data storage device, the data storage device further comprises a data storage part for loading the storage module and a data writing part for loading the processing module, wherein the data storage part is in clamping fit with the accommodating clamping structure of the data writing part through a clamping structure.

According to the device, the storage module is loaded into the data storage part, the processing module is loaded into the data writing part, and then the buckle structure and the clamping structure containing the buckle structure are matched to realize rapid disassembly and assembly.

Preferably, to the cooperation of the buckle structure joint that holds of data storage portion through buckle structure and data write-in portion, the utility model discloses still designed following several kinds of schemes and realized:

the first implementation scheme is as follows:

a data storage device:

on the basis of the data storage device, the buckling structure is arranged on the surface A of the data storage part, the accommodating buckling structure is arranged on the surface B of the data writing part,

the storage module is arranged in the data storage part, the head A of the spring thimble penetrates through the surface A of the data storage part from the lower side surface of the storage module and is exposed downwards, the processing module is arranged in the data writing part, the head B of the spring thimble penetrates through the surface B of the data writing part from the upper side surface of the processing module and is exposed upwards, and the buckling structure is clamped into the containing buckling structure.

This scheme sets up buckle structure with the A face, holds buckle structure with the B face setting, utilizes buckle structure and holds buckle structure and realize the joint cooperation, wherein, buckle structure sets up and can understand that buckle structure grows from the A face at data storage portion A face and obtain, and buckle structure adopts the buckle structure that has the elastic arm this moment, utilizes the elasticity of elastic arm to make the buckle card to holding buckle structure, and holds buckle structure can be the groove structure of lateral wall area left-hand thread groove.

The second implementation scheme is as follows:

a data storage device:

on the basis of the above-mentioned data storage device,

the fixing part buckle is integrated with the fixing part, the fixing part buckle is arranged in the data storage part, and the fixing part buckle penetrates out of the surface A of the data storage part and is exposed downwards;

The scheme is that the fixing piece buckle is regarded as a buckle structure, but the buckle structure is fixed on the fixing piece, and the fixing piece is a fixed structure assembled in the data storage part, so that the fixing piece buckle can be detached from the data storage part, the buckle structure adopts a buckle structure with an elastic arm at the moment, the buckle is clamped to the accommodating buckle structure by utilizing the elasticity of the elastic arm, and the accommodating buckle structure can be a groove structure with a reverse buckle groove on the side wall.

The third implementation scheme is as follows:

preferably, the data storage device configured according to the second implementation further includes a spring and a handle body, the fixing member is disposed in the guide groove inside the data storage portion, the spring drives the fixing member to slide along the guide groove, and the handle body is disposed on the fixing member and exposed from one surface of the data storage portion.

This scheme is regarded as the buckle structure with the mounting buckle, but this buckle structure is fixed on the mounting, and the mounting is a fixed knot structure of assembly in data storage portion, make the mounting buckle can follow the split in data storage portion, buckle structure can adopt the buckle structure that has the elastic arm also can adopt the buckle structure that does not have the elastic arm this moment, and it can be the groove structure of lateral wall area left-hand thread groove to hold the buckle structure, utilize the handle body to drive the mounting removal this moment, make mounting compression spring, make the mounting buckle can be convenient insert hold the buckle structure in, loosen the handle body again, under the drive of spring, the mounting drives the mounting buckle translation back-insert in the left-hand thread groove.

The fourth implementation scheme is as follows:

a data storage device:

on the basis of the above-mentioned data storage device,

the fixing part buckle and the fixing part are integrally constructed, the fixing part is arranged in the data storage part, and the fixing part buckle penetrates out of the A surface of the data storage part and is exposed downwards;

the fixing piece is arranged in a guide groove in the data storage part, and the spring drives the fixing piece to slide along the guide groove;

the connecting rod assembly is arranged in the data storage part and comprises a connecting rod body, a connecting rod protruding part and a connecting rod handle, and the connecting rod handle is arranged on the connecting rod body and is exposed from one side of the data storage part;

the number of the fixing pieces is 2, each fixing piece is provided with 1 fixing piece buckle and 1 spring, and the connecting rod protruding parts at two ends of the connecting rod body are respectively inserted into a protruding part clamping groove at the top of one fixing piece;

the 2 springs corresponding to the fixed pieces are divided into M-direction springs and N-direction springs, the M pushes the pushing fixed pieces configured with the M-direction springs to push towards the M-direction, the N-direction springs push the pushing fixed pieces configured with the N-direction springs to push towards the N-direction, and the M-direction and the N-direction are the same 2 directions.

The scheme is that springs are used as enabling devices for driving pressing force, 2 fixing pieces are provided, so that 2 springs are pushed towards the same direction, and a fixing piece buckle is inserted into a buckle containing structure, the buckle containing structure is a groove structure with a reverse buckle groove on the side wall, for example, the 2 buckle containing structures are correspondingly arranged, when the connecting rod handle is assembled, a connecting rod body is pushed to drive the connecting rod body to move in parallel, then the 2 fixing pieces are driven to compress the 2 springs, and the fixing piece buckle can be conveniently inserted into the buckle containing structure; after the connecting rod handle is loosened, the connecting rod body moves in parallel and reversely under the pushing of 2 springs in the same direction, the fixing piece moves along the guide device to drive the fixing piece to be buckled in the buckle containing structure to move, and the fixing piece buckle is matched with the left-hand buckling groove of the buckle containing structure; when needs are dismantled, only need promote the connecting rod handle and drive connecting rod body parallel translation, then drive 2 mountings and go 2 springs of compression for the mounting buckle from accommodating in the buckle structure withdraw from can.

The fifth implementation scheme is as follows:

a data storage device:

on the basis of the above-mentioned data storage device,

the central position of the connecting rod body is provided with a connecting rod hole, the inner wall of the shell of the data storage part is provided with an upper shell shaft, and the upper shell shaft is inserted into the connecting rod hole;

the 2 springs corresponding to the fixing pieces are divided into M-direction springs and N-direction springs, the M-direction springs push the pushing fixing pieces arranged with the M-direction springs to push towards the M-direction, the N-direction springs push the pushing fixing pieces arranged with the N-direction springs to push towards the N-direction, and the M-direction and the N-direction are 2 opposite directions;

The scheme is that springs are used as enabling devices for driving pressing force, 2 fixing pieces are provided, so that 2 springs are pushed towards the opposite direction or the opposite direction, and a fixing piece buckle is inserted into a buckle containing structure, the buckle containing structure is a groove structure with a reverse buckle groove on the side wall, at the moment, 2 buckle containing structures are correspondingly arranged, when the connecting rod handle is assembled, a connecting rod handle is pushed to drive a connecting rod body to rotate around an upper shell shaft, and then 2 fixing pieces are driven to compress the 2 springs in the opposite direction or the opposite direction, so that the fixing piece buckle can be conveniently inserted into the buckle containing structure; after the connecting rod handle is loosened, the connecting rod body rotates reversely to move under the pushing of the 2 springs in the opposite or reverse directions, the fixing piece moves along the guide device to drive the fixing piece to be buckled in the buckle containing structure to move, and the fixing piece buckle is matched with the reverse buckling groove of the buckle containing structure; when needs are dismantled, only need promote the connecting rod handle and drive the rotatory removal of connecting rod body, then drive 2 mountings and go to compress 2 springs, make the mounting buckle from accommodating buckle structure in withdraw can, this moment, its design requires the connecting rod body to be rotary motion, therefore, to accommodating buckle structure, its left-hand thread groove should be the plane of symmetry setting, one holds buckle structure's left flank setting promptly, then another holds buckle structure's left-hand thread groove should set up the right flank at its recess, to the mounting buckle, it also needs reverse setting, general to the mounting buckle, it possesses the tongue platform, if the tongue platform of a mounting buckle is to the left side, then the tongue platform of another mounting buckle then need face the right side.

To above-mentioned several kinds of technical scheme, it can both realize quick split, nevertheless the utility model discloses in, with fifth kind technical scheme, its technological effect is optimum, the design of the symmetrical rotation connecting rod body of its adoption, make it block data write in portion down about, be particularly useful in the aerial photography appearance, because aerial photography appearance during operation, it is in high altitude flight, under the vibration of rotor, motor, other structures are not hard up easily, and this application is the spring of left and right sides and the mounting buckle of left and right sides, consequently make its vibrations mainly concentrate on the central point, just so can guarantee that the deformation of spring thimble A head and spring thimble B head is in controllable within range. And if the 4 th type of spring is adopted, the springs are arranged in the same direction on two sides, so that the springs are compressed in one direction, and the structure has large deformation during vibration, so that the deformation of the head A of the spring thimble and the head B of the spring thimble is difficult to meet within a controllable range. Therefore, in the field of aerial photography, especially in the field of aerial photography with high vibration, such as diesel engine aerial photography and high-power aerial photography, the fifth layout design is preferred, and other four layout designs can be selected in other scenes.

Preferably, in order to design a housing that fits properly the above-described structure:

on the basis of the data storage device, the data writing part comprises a writing part lower shell and a writing part upper shell, the writing part upper shell is a rectangular groove, the back surface of the groove bottom surface of the rectangular groove is opposite to the writing part lower shell, the B surface of the data writing part is the groove bottom surface of the writing part upper shell, a buckle clamping groove serving as a buckle containing structure is arranged on the groove bottom surface, and a spring thimble B head assembling hole is arranged on the groove bottom surface; the data storage part is embedded into the rectangular groove;

the processing module is located between the lower shell of the writing part and the upper shell of the writing part, and the B head of the spring thimble extends into the rectangular groove from the assembling hole of the B head of the spring thimble.

On the basis of the data storage device, the data storage part is formed by folding the upper storage part shell and the lower storage part shell.

The application of the data storage device applies the data storage device to the aerial camera.

An application method of a data storage device is characterized in that the data storage device is applied to an aerial camera, when data are stored fully, a spring thimble A head of a storage module is separated from a spring thimble B head of a processing module, so that a data storage part for loading the storage module is separated from a data writing part for loading the processing module, a new data storage part for loading the storage module is assembled on the data writing part for loading the processing module, and the spring thimble A head of the new storage module is in butt joint with the spring thimble B head of the processing module.

Compared with the prior art, the utility model, following advantage and beneficial effect have: the utility model discloses an external quick detach formula data storage, directly change an empty memory (the data storage portion who loads storage module) when data are full of stock and can restart work, no matter how the aircraft vibrates the pine can not also not become firm to firm quick detach buckle, through spring thimble zonulae occludens between processing module and the storage module, avoids contact failure to lead to the data error.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention.

FIG. 1 is a spatial relationship diagram of a storage module and a processing module.

FIG. 2 is a disassembled exploded view of the data storage portion of the load storage module.

Fig. 3 is a merged view of the data storage unit of the load memory module.

Fig. 4 is a plan view of the data storage unit.

FIG. 5 is a schematic view of the direction AA in FIG. 4.

Fig. 6 is a plan view of the upper case of the data storage section hiding storage section.

Fig. 7 is a bottom view of the lower case of the data storage unit hiding storage unit.

Fig. 8 is a disassembled exploded view of the data processing section of the load processing module.

Fig. 9 is a combination diagram of the data processing unit.

Fig. 10 is an assembly view of the data processing unit and the data storage unit.

The reference numerals in the figures are denoted respectively by:

100. a data storage unit; 200. a data writing section;

101. a storage module; 102. a spring thimble A head; 103. a connecting rod assembly; 104. a storage portion upper case; 105. a fixing member; 106. a storage portion lower case; 1031. a connecting rod handle; 1032. a connecting rod hole; 1033. a connecting rod protrusion; 1041. a handle assembly hole; 1042, an upper housing shaft; 1051. a tab slot; 1052. the fixing piece is buckled; 1053. a spring;

201. a processing module; 202. a spring thimble B head; 203. a data input/output interface; 204. a writing part lower case; 205. a writing section upper case; 2051. a spring thimble B head assembling hole, 2052 and a buckle clamping groove.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

Example 1

As shown in fig. 1, in order to solve the problem of signal conduction between the storage portion and the processing portion caused by up-and-down oscillation, the present embodiment designs a data storage device, which only includes the following mechanisms, and all that includes the following structures should be regarded as the protection scope of the present invention.

A data storage device comprising: a storage module 101, a processing module 201,

the lower side of the storage module 101 is provided with a spring thimble A head 102, the upper side of the processing module 201 is provided with a spring thimble B head 202 which is in butt joint and matching with the spring thimble A head 102,

the storage module 101 receives data sent by the processing module 201 through the head of a pogo pin a 102 and the head of a pogo pin B202;

the storage module 101 is arranged in parallel with the processing module 201.

The utility model firstly sets the traditional data storage part and the data processing part as the storage module 101 and the processing module 201 respectively and independently; meanwhile, a spring thimble A head 102 is arranged on the storage module 101, a spring thimble B head 202 is arranged on the processing module 201, and reliable signal connection is realized under a vibration condition by utilizing the matching of the spring thimble A head 102 and the spring thimble B head 202, wherein the spring thimble A head 102 and the spring thimble B head 202 are spring thimble assembly structures, one end of each structure is composed of a guide cylinder, a built-in spring and a thimble, and the other end of each structure is of a slot structure. The two cooperation realizes leading and meets, even also can guarantee it to switch on under the condition of high-speed vibrations, the utility model discloses above-mentioned scheme specially adapted aerophotographic appearance's storage design compares in the integration in traditional aerophotographic appearance, and quick split can be realized to this structure, need not to go to delete storage data through the processing part, directly replace standard storage module can, compare in traditional CF card formula storage device, although CF card formula storage device also is processing part and storage part separation, but the connection of CF card is the metal pin piece guide of metal pin and CF card and connects, and its anti-seismic performance is relatively poor.

Example 2

A data storage device:

in addition to the data storage device of the above embodiment, the following configurations of pogo pin a head 102 and pogo pin B head 202 are arbitrarily adopted:

case 1 is shown in fig. 1: the head 102 of the spring thimble A is a male head of the spring thimble, and the head 202 of the spring thimble B is a female head of the spring thimble;

case 2 is not given a schematic: the head A102 of the pogo pin is the female head of the pogo pin, and the head B202 of the pogo pin is the male head of the pogo pin.

Example 3

On the basis of the above-mentioned embodiment, to the encapsulation to storage module 101, processing module 201 respectively in order to realize to and realize quick split, the utility model discloses another kind of data storage device has still been set up:

as shown in fig. 10, in addition to the data storage device, the data storage device further includes a data storage portion 100 for loading the storage module 101 and a data writing portion 200 for loading the processing module 201, wherein the data storage portion 100 is snap-fitted with a receiving snap structure of the data writing portion 200 through a snap structure.

The device, the memory module 101 is loaded into the data storage part 100, the processing module 201 is loaded into the data writing part 200, and then the snap fit structure and the snap fit structure containing the snap fit structure are utilized to realize rapid disassembly and assembly.

Example 4

Preferably, the data storage unit 100 is matched with the data writing unit 200 through the snap structure and the snap structure, the present invention further designs several schemes to realize the following:

the first implementation scheme is as follows:

as shown in fig. 10, a data storage device:

in addition to the above data storage device, the snap structure is disposed on the surface of the data storage portion 100A, the accommodating snap structure is disposed on the surface of the data writing portion 200B,

the storage module 101 is arranged in the data storage part 100, the pogo pin A head 102 passes through the surface of the data storage part 100A from the lower side surface of the storage module 101 and is exposed downwards, the processing module 201 is arranged in the data writing part 200, the pogo pin B head 202 passes through the surface B of the data writing part 200 from the upper side surface of the processing module 201 and is exposed upwards, and the buckling structure is clamped in the containing buckling structure.

This scheme sets up buckle structure with the A face, holds buckle structure with the B face setting, utilizes buckle structure and holds buckle structure and realize the joint cooperation, wherein, buckle structure sets up can understand that buckle structure grows from the A face at data storage portion 100A face and obtains, and buckle structure adopts the buckle structure that has the elastic arm this moment, utilizes the elasticity of elastic arm to make the buckle card to holding buckle structure, and holds buckle structure can be the groove structure of lateral wall area left-hand thread groove.

The second implementation scheme is as follows:

as shown in fig. 10, a data storage device:

on the basis of the above-mentioned data storage device,

referring to FIG. 2, the linkage assembly of FIG. 2 is removed, the springs of FIG. are removed, and only mount 105 and mount latch 1052 remain;

therefore, a data storage device is based on the above-described embodiments: the data storage device further comprises a fixing piece 105 and a fixing piece buckle 1052 serving as a buckle structure, wherein the fixing piece buckle 1052 and the fixing piece 105 are integrally constructed, the fixing piece buckle 1052 is arranged inside the data storage part 100, and the fixing piece buckle 1052 penetrates out of the surface of the data storage part 100A to be exposed downwards;

The fixing member 1052 is regarded as a snap structure, but the snap structure is fixed on the fixing member 105, and the fixing member is a fixing structure assembled in the data storage portion 100, so that the fixing member 1052 can be detached from the data storage portion 100, at this time, the snap structure adopts a snap structure with an elastic arm, the snap structure is snapped to a receiving snap structure by the elasticity of the elastic arm, and the receiving snap structure can be a groove structure with a reverse snap groove on the side wall.

The third implementation scheme is as follows:

as shown in fig. 10, referring to fig. 2, the link assembly of fig. 2 is removed, the spring of the drawing is retained, only the fixing member 105 and the fixing member latch 1052 are retained, and the handle body is mounted on the fixing member 105;

preferably, the data storage device configured as the second implementation mode further includes a spring 1053 and a handle body, the fixing member 105 is disposed in a guide groove inside the data storage portion 100, the spring 1053 drives the fixing member 105 to slide along the guide groove, and the handle body is disposed on the fixing member 105 and exposed from one surface of the data storage portion 100.

The fixing piece buckle 1052 is regarded as a buckle structure, but the buckle structure is fixed on the fixing piece 105, and the fixing piece is a fixing structure assembled in the data storage part 100, so that the fixing piece buckle 1052 can be detached from the data storage part 100, at this time, the buckle structure can adopt a buckle structure with an elastic arm or a buckle structure without an elastic arm, and the accommodating buckle structure can be a groove structure with a reverse buckle groove on a side wall, at this time, the fixing piece 105 is driven by the handle body to move, so that the fixing piece compresses the spring 1053, the fixing piece buckle 1052 can be conveniently inserted into the accommodating buckle structure, then the handle body is released, and under the driving of the spring, the fixing piece 105 drives the fixing piece buckle 1052 to be horizontally moved and then inserted into the reverse buckle groove.

The fourth implementation scheme is as follows:

the third implementation scheme is as follows:

as shown in fig. 10, referring to fig. 2, in the present solution, referring to fig. 6 and 7, the present solution is different from fig. 6 and 7 in that: the link hole 1032 and the upper housing shaft 1042 are not provided, and the springs are provided on the same side.

Accordingly, a data storage device:

on the basis of the above-mentioned data storage device,

the data storage device further comprises a fixing piece 105 and a fixing piece buckle 1052 serving as a buckle structure, wherein the fixing piece buckle 1052 and the fixing piece 105 are integrally constructed, the fixing piece 105 is arranged inside the data storage part 100, and the fixing piece buckle 1052 penetrates out of the surface A of the data storage part 100 and is exposed downwards;

the data storage part 100 is characterized by further comprising a spring 1053, wherein the fixing piece 105 is arranged in a guide groove in the data storage part 100, and the spring 1053 drives the fixing piece 105 to slide along the guide groove;

the connecting rod assembly 103 is arranged in the data storage part 100, the connecting rod assembly 103 comprises a connecting rod body, a connecting rod protruding part 1033 and a connecting rod handle 1031, and the connecting rod handle 1031 is arranged on the connecting rod body and is exposed from one surface of the data storage part 100;

the number of the fixing pieces 105 is 2, each fixing piece 105 is provided with 1 fixing piece buckle 1052 and 1 spring 1053, and the connecting rod protruding parts 1033 at two ends of the connecting rod body are respectively inserted into the protruding part clamping grooves 1051 at the top of one fixing piece 105;

the 2 spring branches corresponding to the anchor 105 are an M-direction spring and an N-direction spring, the M-direction spring pushes the push anchor 105 disposed in the spring to push the M-direction, the N-direction spring pushes the push anchor 105 disposed in the spring to push the N-direction, and the M-direction and the N-direction are the same 2 directions.

The scheme is that springs are used as enabling devices for driving pressing force, 2 fixing pieces 105 are provided, so that the 2 springs are pushed towards the same direction, the fixing piece buckle 1052 is enabled to be inserted into the buckle containing structure, the buckle containing structure is a groove structure with a reverse buckle groove on the side wall as an example, at the moment, 2 buckle containing structures are correspondingly arranged, when the fixing piece buckle is assembled, a connecting rod handle 1031 is pushed to drive a connecting rod body to move in parallel, then the 2 fixing pieces 105 are driven to compress the 2 springs, and the fixing piece buckle 1052 can be conveniently inserted into the buckle containing structure; after the connecting rod handle 1031 is loosened, the connecting rod body moves in parallel and reversely under the pushing of 2 springs in the same direction, the fixing piece 105 moves along the guide device to drive the fixing piece buckle 1052 to move in the buckle accommodating structure, so that the fixing piece buckle 1052 is matched with the left buckle groove of the buckle accommodating structure; when needs are dismantled, only need promote connecting rod handle 1031 and drive connecting rod body parallel translation, then drive 2 mounting 105 and go 2 springs of compression for fixing member buckle 1052 withdraws from receiving in the buckle structure can.

The fifth implementation scheme is as follows:

as shown in figures 1-10 of the drawings,

a data storage device:

on the basis of the above-mentioned data storage device,

as shown in fig. 2, the data storage device further includes a fixing member 105 and a fixing member buckle 1052 as a buckle structure, the fixing member buckle 1052 and the fixing member 105 are integrally configured, the fixing member 105 is disposed inside the data storage portion 100, and the fixing member buckle 1052 protrudes out of the surface of the data storage portion 100A and is exposed downward;

as shown in fig. 3, 4, 5, 6, and 7, the number of the fixing members 105 is 2, each fixing member 105 is provided with 1 fixing member snap 1052 and 1 spring 1053, and the link protrusions 1033 at both ends of the link body are respectively inserted into the protrusion snap grooves 1051 at the top of one fixing member 105;

a link hole 1032 is formed at the center of the link body, an upper housing shaft 1042 is formed on the inner wall of the housing of the data storage unit 100, and the upper housing shaft 1042 is inserted into the link hole 1032;

the 2 springs corresponding to the fixing piece 105 are divided into an M-direction spring and an N-direction spring, the M-direction spring pushes the pushing fixing piece 105 arranged with the M-direction spring to push towards the M-direction, the N-direction spring pushes the pushing fixing piece 105 arranged with the N-direction spring to push towards the N-direction, and the M-direction and the N-direction are 2 opposite directions;

The scheme is that springs are used as enabling devices for driving pressing force, 2 fixing pieces 105 are provided, so that the 2 springs are pushed towards the opposite direction or the opposite direction, and accordingly a fixing piece buckle 1052 is inserted into a buckle accommodating structure, the buckle accommodating structure is a groove structure with a reverse buckle groove on the side wall as an example, at the moment, 2 buckle accommodating structures are correspondingly arranged, when the connecting rod handle 1031 is pushed to drive the connecting rod body to rotate around an upper shell shaft, and then the 2 fixing pieces 105 are driven to compress the 2 springs in the opposite or opposite compression direction, so that the fixing piece buckle 1052 can be conveniently inserted into the buckle accommodating structure; after the connecting rod handle 1031 is loosened, the connecting rod body rotates reversely under the pushing of the 2 springs in the opposite or reverse directions, the fixing piece 105 moves along the guide device, and the fixing piece buckle 1052 is driven to move in the buckle accommodating structure, so that the fixing piece buckle 1052 is matched with the left buckle groove of the buckle accommodating structure; referring to fig. 6 and 7, when the fastener is to be detached, the link handle 1031 is pushed to drive the link body to rotate and move, and then the 2 fasteners 105 are driven to compress the 2 springs, so that the fastener buckle 1052 is withdrawn from the fastener accommodating structure, at this time, the design requires that the link body rotates, and therefore, for the fastener accommodating structure, the left-hand buckling grooves of the fastener accommodating structure should be arranged symmetrically, that is, the left-hand buckling groove of one fastener accommodating structure is arranged on the left side of the groove of the fastener accommodating structure, the right-hand buckling grooves of the other fastener accommodating structure should be arranged on the right side of the groove of the fastener accommodating structure, for the fastener buckle 1052, the reverse buckling grooves should be arranged oppositely, and for the fastener buckle 1052, generally, the fastener buckle 1052 is provided with a tongue platform, and if the tongue platform of one fastener buckle 1052 faces to the left side, the tongue platform of the other fastener buckle.

To above-mentioned several kinds of technical scheme, it can both realize quick split, nevertheless the utility model discloses in, with fifth technical scheme, its technological effect is optimum, the design of the symmetrical rotation connecting rod body of its adoption for it blocks data write-in portion 200 down about, be particularly useful in the aerial photography appearance, because aerial photography appearance during operation, it is in high altitude flight, under the vibration of rotor, motor, other structures are not hard up easily, and this application is the spring of left and right directions and the mounting buckle 1052 of left and right directions, consequently make its vibrations mainly concentrate on the central point, just so can guarantee that the deformation of spring thimble A head 102 and spring thimble B head 202 is in controllable within range. However, if the 4 th spring with the same layout on both sides is adopted, the spring is compressed in one direction, and with the structure, the deformation amount is large during vibration, so that the deformation of the head 102 of the pogo pin a and the head 202 of the pogo pin B is difficult to be in a controllable range. Therefore, in the field of aerial photography, especially in the field of aerial photography with high vibration, such as diesel engine aerial photography and high-power aerial photography, the fifth layout design is preferred, and other four layout designs can be selected in other scenes.

On the basis of the above-described embodiment:

as shown in fig. 8 and 9, on the basis of the data storage device, the data writing portion 200 includes a writing portion lower case 204 and a writing portion upper case 205, the writing portion upper case 205 is a rectangular groove, the back surface of the groove bottom surface of the rectangular groove is opposite to the writing portion lower case 204, the B surface of the data writing portion 200 is the groove bottom surface of the writing portion upper case 205, a buckle clamping groove 2052 is arranged on the groove bottom surface as a buckle accommodating structure, and a spring thimble B head assembling hole 2051 is arranged on the groove bottom surface; the data storage part 100 is embedded into a rectangular groove;

the processing module is located between writing section lower housing 204 and writing section upper housing 205, and pogo pin B head extends into the rectangular slot from pogo pin B head mounting hole 2051.

In addition to the data storage device, the data storage unit 100 is formed by folding the storage unit upper case 104 and the storage unit lower case 106.

The number of the above embodiments and the above solutions is not limited by any means, and the above directions and orientations are not absolute, and those skilled in the art can apply appropriate changes according to the core concept of the present application and equivalent changes, and the inventive idea of the present invention is also embodied in: the utility model discloses the data storage portion and the data processing portion of split have been set up, and in the data storage portion assembled the write-in portion upper cover of data processing portion with the male mode, utilize spring thimble assembly to lead as the data transmission of longitudinal direction simultaneously, can overcome the contact failure that the vibrations of longitudinal direction lead to, utilize link assembly and spring subtend that can rotate simultaneously or drive dorsad, realize the output of symmetry and enable, make horizontal amplitude center put at the central point and match with spring thimble assembly, avoid the vibrations damage to spring thimble assembly. When unmanned aerial vehicle flight state, its frequency of vibration is at 10-55Hz, and when this frequency, it can take place not hard up in traditional SD structure, has nevertheless used the utility model discloses an after the above-mentioned structure, it can be overcome when 55Hz, utilizes above-mentioned structure can guarantee the good contact of components and parts. In unmanned aerial vehicle in this field, general single camera is 7 thimbles at least, the utility model discloses can adapt to the aerial photography appearance of 5 cameras, its thimble structure reaches 35, preferably adopts 6 arranging, and unnecessary one is the ground connection thimble, and this kind of array is arranged, enables its whole and has the face atress that the single-point atress formed overall state under the vibrations condition, plays the effect of buffering vibrations. That is, preferably, in order to overcome the damage to the thimble caused by the vibration, in general, in the present invention, it is preferable to integrate the ports of a plurality of cameras on one panel, and arrange them in a row-column array, and a square array is the best, i.e. the same number of rows and columns is the best.

Example 5

As a concrete structure, a data storage device, as shown in fig. 1 to 10,

the storage device comprises a data storage part 100 formed by an upper storage part shell 104 and a lower storage part shell through bolts or adhesion, wherein a storage module 101 is arranged in the data storage part 100, 2 springs are inserted into a fixing part, the directions are opposite, one ends of the springs, which are positioned outside the fixing part 105, are locked by the upper storage part shell 104, a connecting rod body is arranged above the storage module, connecting rod protrusions 1033 at two ends of the connecting rod body are inserted into protrusion clamping grooves 1051 of the fixing part 105, an upper shell shaft 1042 is arranged on the inner wall of the upper storage part shell 104 downwards, the upper shell shaft 1042 is inserted into a connecting rod hole 1032 at the middle part of the connecting rod body to limit the connecting rod body to rotate around the upper shell shaft 1042, a handle assembling hole 1041 is formed on the top surface of the upper storage part shell 104, then a connecting rod handle 1031 on the connecting rod body is extended out of the handle assembling hole 1041, of course, the handle assembling hole 1041 has a larger space, the connecting rod handle 1031 can move in the connecting rod handle 1031, and the terminal surface is connected with mounting buckle 1052 under the mounting, and mounting buckle lateral wall is provided with bellied tongue platform, and the tongue platform of 2 mounting buckles sets up on 2 opposite sides. For the data writing part, it is made up of writing part lower casing 204 and writing part upper casing 205, wherein writing part upper casing 205 is a groove structure, and the data storage part can be wholly embedded into writing part upper casing 205, the groove bottom surface of writing part upper casing 205 is provided with the buckle draw-in groove 2052 that holds and blocks the mounting piece buckle, the groove bottom surface of writing part upper casing 205 is provided with spring thimble B head pilot hole, processing module sets up in the space between writing part lower casing 204 and writing part upper casing 205, and, spring thimble B head on its processing module stretches out from spring thimble B head pilot hole and docks with spring thimble A head. Of course, the data input/output interface of the processing module extends from the lower case of the writing section. The number of pairs of the spring thimble B head and the spring thimble A head is multiple.

Example 6

Example 7

An application method of a data storage device applies the data storage device to an aerial camera, when data are fully stored, a spring thimble A head 102 of a storage module 101 is separated from a spring thimble B head 202 of a processing module, so that a data storage part 100 of a loading storage module 101 is separated from a data writing part 200 of the loading processing module 201, the data storage part 100 of a new loading storage module 101 is assembled on the data writing part 200 of the loading processing module 201, and the spring thimble A head 102 of the new storage module 101 is in butt joint with the spring thimble B head 202 of the processing module.

Preferably, the first and second liquid crystal materials are,

the processing module 201 is a patch panel, and the patch panel transmits data transmitted by the data line to the upper storage module through the data input/output interface.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. A data storage device characterized by:

comprises a storage module (101) and a processing module (201),

a spring thimble A head (102) is arranged on the lower side surface of the storage module (101), a spring thimble B head (202) which is in butt joint and matching with the spring thimble A head (102) is arranged on the upper side surface of the processing module (201),

the storage module (101) receives data sent by the processing module (201) through a spring thimble A head (102) and a spring thimble B head (202);

the storage module (101) and the processing module (201) are arranged in parallel.

2. A data storage device as claimed in claim 1, wherein: the configuration of pogo pin A head (102) and pogo pin B head (202) is any of the following:

case 1: the head A (102) of the spring thimble is a male head of the spring thimble, and the head B (202) of the spring thimble is a female head of the spring thimble;

case 2: the head A (102) of the spring thimble is a female head of the spring thimble, and the head B (202) of the spring thimble is a male head of the spring thimble.

3. A data storage device as claimed in claim 1, wherein:

the data storage part (100) of the loading storage module (101) and the data writing part (200) of the loading processing module (201) are further included, and the data storage part (100) is in clamping fit with the accommodating clamping structure of the data writing part (200) through a clamping structure.

4. A data storage device as claimed in claim 3, wherein:

the buckle structure is arranged on the surface A of the data storage part (100), the buckle containing structure is arranged on the surface B of the data writing part (200),

the storage module (101) is arranged in the data storage part (100), the spring thimble A head (102) penetrates through the surface A of the data storage part (100) from the lower side surface of the storage module (101) and is exposed downwards, the processing module (201) is arranged in the data writing part (200), the spring thimble B head (202) penetrates through the surface B of the data writing part (200) from the upper side surface of the processing module (201) and is exposed upwards, and the buckling structure is clamped into the containing buckling structure.

5. A data storage device as claimed in claim 3, wherein:

the data storage device is characterized by further comprising a fixing piece (105) and a fixing piece buckle (1052) serving as a buckle structure, wherein the fixing piece buckle (1052) and the fixing piece (105) are integrally constructed, the fixing piece buckle (1052) is arranged inside the data storage part (100), and the fixing piece buckle (1052) penetrates through the A surface of the data storage part (100) and is exposed downwards;

6. A data storage device according to claim 5, wherein: the novel multifunctional electric tool is characterized by further comprising a spring (1053) and a handle body, wherein the fixing piece (105) is arranged in a guide groove in the data storage part (100), the spring (1053) drives the fixing piece (105) to slide along the guide groove, and the handle body is arranged on the fixing piece (105) and is exposed out of one surface of the data storage part (100).

7. A data storage device as claimed in claim 3, wherein:

the data storage device is characterized by further comprising a fixing piece (105) and a fixing piece buckle (1052) serving as a buckle structure, wherein the fixing piece buckle (1052) and the fixing piece (105) are integrally constructed, the fixing piece (105) is arranged inside the data storage part (100), and the fixing piece buckle (1052) penetrates through the A surface of the data storage part (100) and is exposed downwards;

the data storage device is characterized by further comprising a spring (1053), wherein the fixing piece (105) is arranged in a guide groove in the data storage part (100), and the spring (1053) drives the fixing piece (105) to slide along the guide groove;

the connecting rod assembly (103) is arranged in the data storage part (100), the connecting rod assembly (103) comprises a connecting rod body, a connecting rod protruding part (1033) and a connecting rod handle (1031), and the connecting rod handle (1031) is arranged on the connecting rod body and is exposed out of one surface of the data storage part (100);

the number of the fixing pieces (105) is 2, each fixing piece (105) is provided with 1 fixing piece buckle (1052) and 1 spring (1053), and the connecting rod protruding parts (1033) at two ends of the connecting rod body are respectively inserted into the protruding part clamping grooves (1051) at the top of one fixing piece (105);

the 2 springs corresponding to the fixing piece (105) are divided into an M-direction spring and an N-direction spring, the M pushes the pushing fixing piece (105) configured with the M-direction spring to push towards the M-direction, the N pushes the pushing fixing piece (105) configured with the N-direction spring to push towards the N-direction, and the M-direction and the N-direction are the same 2 directions;

8. A data storage device as claimed in claim 3, wherein:

a connecting rod hole (1032) is formed in the center of the connecting rod body, an upper shell shaft (1042) is arranged on the inner wall of the shell of the data storage part (100), and the upper shell shaft (1042) is inserted into the connecting rod hole (1032);

the 2 spring branches corresponding to the fixing piece (105) are an M-direction spring and an N-direction spring, the M-direction spring pushes the pushing fixing piece (105) arranged with the M-direction spring to push towards the M-direction, the N-direction spring pushes the pushing fixing piece (105) arranged with the N-direction spring to push towards the N-direction, and the M-direction and the N-direction are opposite and opposite in 2 directions;

9. A data storage device as claimed in any one of claims 3 to 8, wherein:

the data writing part (200) comprises a writing part lower shell (204) and a writing part upper shell (205), the writing part upper shell (205) is a rectangular groove, the back surface of the groove bottom surface of the rectangular groove is opposite to the writing part lower shell (204), the surface B of the data writing part (200) is the groove bottom surface of the writing part upper shell (205), a buckle clamping groove (2052) serving as a buckle containing structure is arranged on the groove bottom surface, and a spring thimble B head assembling hole (2051) is arranged on the groove bottom surface; the data storage part (100) is embedded into the rectangular groove;

the processing module is located between a writing part lower shell (204) and a writing part upper shell (205), and a spring thimble B head extends into the rectangular groove from a spring thimble B head assembling hole (2051).

10. A data storage device as claimed in any one of claims 3 to 8, wherein:

the data storage part (100) is formed by folding a storage part upper shell (104) and a storage part lower shell (106) to form a storage part shell.