CN114049904B - Storage device for 5G-based big data connection network - Google Patents

Abstract

The invention provides storage equipment for a 5G-based big data connection network, which relates to the technical field of data storage equipment and comprises a device main body and data receiving equipment, wherein the data receiving equipment is arranged in the data receiving equipment, an electromagnetic protection device and a regulation and control device are arranged outside the data receiving equipment, and one end of the electromagnetic protection device is connected with one end of the data receiving equipment. According to the device, the data is acquired by the main body of the device through the data receiving equipment, the data receiving equipment is connected with the docking shell through the shrinkage containing port for containing, and meanwhile, the data is acquired through the shielding panel and the receiving clamping groove which are arranged in the device, so that the traditional manual USB plugging mode is changed, the problem that the USB is easy to loosen or fall off in the plugging process is effectively solved, the probability that external dust and moisture enter the device can be reduced under the normal state of the docking shell, and the effect of protecting electronic devices in the device is achieved.

Description

Storage device for 5G-based big data connection network

Technical Field

The invention relates to the technical field of data storage equipment, in particular to storage equipment for a 5G big data connection network.

Background

The large data is a data set with large capacity, multiple types, high access speed and high application value as main characteristics, is firstly applied to the IT industry, and is rapidly developed into a new generation information technology and service state for collecting, storing and relating analysis of data with huge numbers, scattered sources and various formats, discovering new knowledge, creating new value and improving new capability.

In the prior art, the existing network data storage device generally adopts two modes, one mode is to upload a plurality of data to a data storage terminal for centralized storage, the other mode is to directly store the data in a data chip or a hard disk and store the data, and the stored data can be finally transmitted and stored for the second time in an internet mode, wherein the mode of centralized storage to one device is generally connected to an interface of the device by using tools such as a data wire or a USB flash disk and the like for uploading the data, the mode is generally connected in a mode of USB plug wire, so that the conditions of loosening or falling off and the like are easy to occur, the interface is easy to expose in the air, dust and moisture in the air are easy to enter the interior of the device to cause the condition of damage to the internal circuit, the mode of storing the data in the chip or the hard disk has obvious defects, the storage space is limited by the capacity of the hard disk, the hard disk or the chip is easy to lose and is stolen due to the lack of effective protection measures, and the safety degree is lower.

Disclosure of Invention

The invention aims to solve the defects in the prior art, the mode of centralized storage to one device is usually used for uploading data by connecting tools such as a data wire or a USB flash disk to an interface of the device, the mode is generally connected by a USB plug wire, so that the conditions of loosening or falling off and the like are easy to occur, the interface is easy to expose in the air, dust and moisture in the air are easy to enter the interior of the device to cause the damage of an internal circuit, and when a data chip or a hard disk is connected to the interior of a device, effective protection measures are not available, the condition that the hard disk is lost or stolen is easy to occur, and the safety degree is low.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides a storage device for network based on big data connection of G, includes device main part and data receiving equipment, data receiving equipment installs in data receiving equipment's inside, data receiving equipment's outside sets up electromagnetic protection device and regulation and control device, electromagnetic protection device's one end is connected in data receiving equipment's one end, regulation and control device installs in data receiving equipment's both sides, swing joint between regulation and control device's one end and the electromagnetic protection device, data receiving equipment includes butt joint shell, retrieves support, switching port and synchronous support, retrieve the bottom of support and connect the one end at the butt joint shell, retrieve the bottom of support and connect the inside at switching port, synchronous support's one end is connected in the inside of switching port.

As a preferred embodiment, the electromagnetic protection device comprises a separation shell, a receiving base and a shielding panel, wherein the bottom of the separation shell is movably connected to the outer wall of the data receiving device, the receiving base is arranged on the inner wall of the butting shell, the shielding panel is positioned on two sides of the receiving base, and a receiving clamping groove is formed in the top of the shielding panel.

As a preferred embodiment, the regulating and controlling device comprises a pushing framework and a locking framework, wherein the pushing framework and the locking framework are respectively positioned at two sides of the data receiving device, the pushing framework comprises a control box body, a transmission bearing and a connecting swivel, one end of the transmission bearing is connected in the control box body, the other end of the transmission bearing is connected in the connecting swivel, and an angle limiting layer is arranged in the connecting swivel.

As a preferred embodiment, the synchronous support comprises a rotary lock catch, a driven support and a movable panel, wherein one end of the driven support is connected to the inside of the rotary lock catch, the other end of the driven support is connected to the inside of the movable panel, and the movable panel is installed on one side of the transfer port.

As a preferred embodiment, one side of the separation housing is provided with a lap joint buckle plate, and the separation housing is positioned at the top of the butt joint housing.

As a preferred embodiment, the locking structure comprises a steering hub, a limiting bearing, a transmission tooth socket and a plug-in switch, wherein one end of the limiting bearing is connected in the steering hub, the bottom of the transmission tooth socket is arranged in the limiting bearing, the other end of the limiting bearing is connected in the plug-in switch, and one end of the plug-in switch is connected in the angle limiting layer.

As a preferred implementation mode, an auxiliary stabilizing disc is arranged at the joint of the butt joint shell and the recovery support, a contraction accommodation port is arranged at the top of the switching port, the movable panel is connected with the recovery support through the arranged contraction accommodation port, and a pressing valve is arranged at the top of the contraction accommodation port.

As a preferred embodiment, the junction of the control box body and the transmission bearing is provided with a storage driving rotating wheel, and the connection rotating ring is positioned at the junction of the separation shell and the data receiving equipment.

As a preferred embodiment, a fold direction-adjusting switch is arranged at the corner of the driven bracket, and a protective shell is arranged at the joint of the fold direction-adjusting switch and the driven bracket.

Compared with the prior art, the invention has the advantages and positive effects that,

1. in the invention, the device main body acquires data by using the data receiving equipment, and exchanges and receives the data by adopting a 5G transmission mode, compared with the traditional 3G and 4G transmission modes, the transmission is faster, the device is mainly used for storing network data, the data receiving equipment is connected with the docking shell by adopting the shrinkage containing port to store the hard disk or the chip stored with the data, and meanwhile, the data is acquired by using the shielding panel and the receiving clamping groove arranged inside the device main body, so that the traditional manual USB (universal serial bus) plugging mode is changed, the problem that the USB is easy to loosen or fall off in the plugging process is effectively reduced, and the probability that external dust and moisture enter the device in the docking shell under the normal state can be reduced, thereby playing the role of protecting electronic devices in the device, and meanwhile, the device can store more kinds of data, such as a USB flash disk, a chip, a SIM card and other various data storage tools, and the data storage in multiple aspects of physics and network are realized.

2. In the invention, after the hard disk or the chip is connected in the device main body, the hard disk or the chip is fixed in the device main body by utilizing the separation shell, so that the device can be used for accommodating and storing some hardware, the application range of the device is effectively expanded, the pushing framework on the regulating device covers the separation shell and the lap joint buckle plate to the opening of the device main body in a mechanical transmission mode, and the locking framework on the other side is started at the same time, so that the separation shell is stably clamped on the device main body, thereby reducing the falling probability of the hardware from the device main body, having a certain anti-theft function and reducing the occurrence of the condition that external personnel steal confidential information.

3. According to the invention, the synchronous support can control the data receiving equipment to be moved out or recovered from the device main body, so that an operator is assisted in storing data, the speed of processing the data by the operator is increased, the use feeling of the operator is improved, the inside of the device can be effectively kept in a closed state by matching with the use of the protection device, and the influence of impurities and charges in air on an internal contact circuit is further reduced.

Drawings

Fig. 1 is a schematic view of an external appearance of a storage device for a 5G-based big data connection network according to the present invention;

fig. 2 is a perspective view of a data receiving device based on a storage device for a 5G big data connection network according to the present invention;

fig. 3 is a schematic diagram showing connection between a data receiving device and a device main body based on a storage device for a 5G big data connection network according to the present invention;

fig. 4 is a schematic diagram of a synchronous support structure of a storage device for a 5G big data connection network according to the present invention;

fig. 5 is a schematic diagram of a protection device structure of a storage device for a 5G big data connection network according to the present invention;

fig. 6 is a schematic diagram of a push architecture of a storage device for a 5G-based big data connection network according to the present invention;

fig. 7 is a schematic diagram of a locking architecture of a storage device for a 5G-based big data connection network according to the present invention.

Legend description:

5. a device body; 1. a data receiving device; 2. a protection device; 3. a regulating device;

11. a docking housing; 12. pressing down the valve; 13. a transfer port; 14. recovering the bracket; 15. an auxiliary stabilizing disc; 16. a shrink receiving port; 17. a synchronous support;

171. rotating the lock catch; 172. a driven bracket; 173. a movable panel; 174. a fold direction-regulating switch; 175. a protective housing;

21. a partition housing; 22. overlap joint buckle plate; 23. a receiving base; 24. a shielding panel; 25. receiving the clamping groove;

31. a push architecture; 32. a locking architecture;

311. a control box body; 312. a transmission bearing; 313. connecting a swivel; 314. receiving and driving the rotating wheel; 315. an angle defining layer;

321. a steering hub; 322. limiting the bearing; 323. a transmission tooth slot; 324. and (5) plugging a switch.

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.

Example 1

As shown in fig. 1-4, the present invention provides a technical solution: the utility model provides a storage device for network based on big data of 5G, including device main part 5 and data receiving equipment 1, data receiving equipment 1 installs in the inside of data receiving equipment 1, the outside of data receiving equipment 1 sets up electromagnetic protection device 2 and regulation and control device 3, the one end of electromagnetic protection device 2 is connected in the one end of data receiving equipment 1, regulation and control device 3 installs in the both sides of data receiving equipment 1, swing joint between one end of regulation and control device 3 and the electromagnetic protection device 2, data receiving equipment 1 includes docking shell 11, retrieve support 14, transfer port 13 and synchronous support 17, the bottom of retrieving support 14 is connected in the one end of docking shell 11, the bottom of retrieving support 14 is connected in the inside of transfer port 13, the one end of synchronous support 17 is connected in the inside of transfer port 13, synchronous support 17 includes rotating hasp 171, driven support 172 and movable panel 173, the one end of driven support 172 is connected in the inside of rotating hasp 171, the other end of driven support 172 is connected in the inside of movable panel 173, movable panel 173 installs in one side of transfer port 13, the department of docking shell 11 and retrieving support 14 is provided with auxiliary stabilization dish 15, the top of transfer port 13 is provided with shrink panel 16 and is provided with shrink port 16 and is held the corner 174 to the shrink port 16 through shrink port 16, the shrink port is provided with the shrink port 16 and is held the shrink port 174, the corner is set up to the shrink port 16, the side 16 is connected with the shrink port 16, the shrink port is connected to the shrink port has, the top was set up to the shrink port has to the shrink valve is put down to the top.

In this embodiment, the device main body 5 obtains data by using the data receiving apparatus 1, and uploads the data to the cloud or sends the data to other apparatuses in a 5G manner, so as to complete data exchange, when in use, firstly, the chip or hard disk structure storing the data is inserted into the docking housing 11, then the valve 12 is pushed down and inserted into the inside of the retraction receiving port 16, the docking housing 11 is received into the device by the retraction recovery bracket 14, the problem that the docking housing 11 is easy to loosen or fall off in the plugging process is effectively reduced, meanwhile, the embedded docking housing 11 can reduce the probability that external dust and moisture enter into the interior of the apparatus in a normal state, thereby playing a role of protecting the internal electronic device of the device, and starting the protecting apparatus 2 and the regulating and controlling apparatus 3 in the retraction manner by the synchronous bracket 17, wherein the fold direction switch 174 arranged on the driven bracket 172 is matched with the protecting housing 175 to synchronously recover the whole retraction receiving port 16, so as to complete the recovery of the whole device, the auxiliary stabilizing disk 15 can promote the whole stability of the docking housing, assist the operator in storing the data, and accelerate the data processing speed of the operator, and finally, the device obtains the data in the plugging process, and the data can be transferred to the internet in a faster and more traditional manner than the internet 4G and 3.

Example 2

As shown in fig. 5, the electromagnetic protection device 2 includes a separation housing 21, a receiving base 23 and a shielding panel 24, wherein the bottom of the separation housing 21 is movably connected to the outer wall of the data receiving device 1, the receiving base 23 is mounted on the inner wall of the docking housing 11, the shielding panel 24 is located at two sides of the receiving base 23, a receiving slot 25 is arranged at the top of the shielding panel 24, a lap joint buckle 22 is arranged at one side of the separation housing 21, and the separation housing 21 is located at the top of the docking housing 11.

In this embodiment, the separate housing 21 cooperates with the docking housing 11 to form a separate space inside the device, so that the device can accommodate and store some hardware, and after the hard disk or chip is connected inside the device body, the separate housing 21 seals the opening of the docking housing 11 through the lap joint buckle 22, and fixes the hard disk or chip inside the device body 5 through the receiving slot 25, thereby effectively expanding the application range of the device.

Example 3

As shown in fig. 6 to 7, the regulating device 3 includes a pushing structure 31 and a locking structure 32, the pushing structure 31 and the locking structure 32 are respectively located at two sides of the data receiving device 1, the pushing structure 31 includes a control box 311, a transmission bearing 312 and a connection swivel 313, one end of the transmission bearing 312 is connected in the control box 311, the other end of the transmission bearing 312 is connected in the connection swivel 313, an angle limiting layer 315 is disposed in the connection swivel 313, the locking structure 32 includes a steering center 321, a limiting bearing 322, a transmission tooth socket 323 and a plug switch 324, one end of the limiting bearing 322 is connected in the steering center 321, the bottom of the transmission tooth socket 323 is mounted in the limiting bearing 322, the other end of the limiting bearing 322 is connected in the plug switch 324, one end of the plug switch 324 is connected in the angle limiting layer 315, a receiving driving rotating wheel 314 is disposed at the junction of the control box 311 and the transmission bearing 312, and the connection swivel 313 is located at the junction of the separation housing 21 and the data receiving device 1.

In this embodiment, the pushing structure 31 is mechanically driven by the driving bearing 312, the control box 311 is matched with the rotating ring 313 to use in combination, the separation housing 21 and the lap joint buckle 22 are rotated to cover the opening of the device main body 5, and meanwhile, the locking structure 32 on the other side is started, and the driving tooth slot 323 rotates along the limiting bearing 322, so that the rotation plug-in switch 324 is matched with the synchronous rotation of the connecting rotating ring 313, the separation housing 21 is stably clamped on the device main body, the probability of falling off of hardware from the inside of the device is reduced, and a certain anti-theft function is provided, so that the situation that external personnel steal confidential information is reduced.

The working principle of the embodiment is as follows:

as shown in fig. 1 to 7, the chip or hard disk structure storing data is inserted into the docking housing 11, then the valve 12 is pushed down to be inserted into the docking housing 16, the docking housing 11 is accommodated into the device by contracting the recovering rack 14, and the protecting device 2 and the regulating device 3 are started by the synchronous rack 17 while contracting, wherein the fold direction switch 174 provided on the driven rack 172 cooperates with the protecting housing 175 to synchronously recover the whole docking housing 16, the recovery of the whole device is completed, the pushing rack 31 is mechanically driven by the driving bearing 312, the control box 311 cooperates with the connection swivel 313 to be combined, the partition housing 21 and the lap joint 22 are rotated to cover the opening of the device main body 5, and simultaneously, the locking rack 32 on the other side is started, the driving rack 323 rotates along the limiting bearing 322, so that the rotation plug-in switch 324 cooperates with the synchronous rotation of the connection swivel 313, the partition housing 21 is stably clamped onto the device main body, the partition housing 21 cooperates with the docking housing 11 to form a separate hard disk space inside the device, so that the device can complete the accommodation of some hardware and the storage of the chip or the storage main body is completed, and after the chip or the data is stored in the memory main body 5 is exchanged by the connection of the chip or the lap joint housing 25 and the data is exchanged by the internet, the data is transferred to the internal storage device is completed by the lap joint housing 25 and the internal storage device is sealed by the connection housing 25 and the lap joint main body 5, and the data is stored in the lap joint main body is sealed by the opening and the receiving the device is sealed by the interface 5, and the data is sealed by the opening is sealed by the storage housing 25 and has been completed.

The present invention is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification, equivalent changes and modification made to the above-mentioned embodiments according to the technical substance of the present invention without departing from the technical content of the present invention still belong to the protection scope of the technical solution of the present invention.

Claims (3)

1. The utility model provides a storage device for network based on big data of 5G, includes device main part (5) and data receiving equipment (1), data receiving equipment (1) install in the inside of device main part (5), its characterized in that: the data receiving device comprises a data receiving device (1), wherein an electromagnetic protection device (2) and a regulating and controlling device (3) are arranged outside the data receiving device (1), one end of the electromagnetic protection device (2) is connected to one end of the data receiving device (1), the regulating and controlling device (3) is arranged on two sides of the data receiving device (1), one end of the regulating and controlling device (3) is movably connected with the electromagnetic protection device (2), the data receiving device (1) comprises a butt joint shell (11), a recovery support (14), a switching port (13) and a synchronous support (17), one end of the recovery support (14) is connected to one end of the butt joint shell (11), the other end of the recovery support (14) is connected to the inside of the switching port (13), and one end of the synchronous support (17) is connected to the inside of the switching port (13) and the protecting device (2) and the regulating and controlling device (3) are started through the synchronous support (17).

The electromagnetic protection device (2) comprises a separation shell (21), a receiving base (23) and a shielding panel (24), wherein the bottom of the separation shell (21) is movably connected to the outer wall of the data receiving device (1), the receiving base (23) is arranged on the inner wall of the butting shell (11), the shielding panel (24) is positioned on two sides of the receiving base (23), and a receiving clamping groove (25) is formed in the top of the shielding panel (24);

the regulation and control device (3) comprises a pushing framework (31) and a locking framework (32), wherein the pushing framework (31) and the locking framework (32) are respectively positioned at two sides of the data receiving device (1), the pushing framework (31) comprises a control box body (311), a transmission bearing (312) and a connecting swivel (313), one end of the transmission bearing (312) is connected in the control box body (311), the other end of the transmission bearing (312) is connected in the connecting swivel (313), and an angle limiting layer (315) is arranged in the connecting swivel (313);

the synchronous support (17) comprises a rotary lock catch (171), a driven support (172) and a movable panel (173), one end of the driven support (172) is connected to the inside of the rotary lock catch (171), the other end of the driven support (172) is connected to the inside of the movable panel (173), and the movable panel (173) is installed on one side of the switching port (13);

an auxiliary stabilizing disc (15) is arranged at the joint of the butt joint shell (11) and the recovery support (14), a contraction accommodation port (16) is arranged at the top of the switching port (13), the movable panel (173) is connected with the recovery support (14) through the arranged contraction accommodation port (16), and a pressing valve (12) is arranged at the top of the contraction accommodation port (16);

the junction of the control box body (311) and the transmission bearing (312) is provided with a storage driving rotating wheel (314), and the connection rotating ring (313) is positioned at the junction of the separation shell (21) and the data receiving equipment (1);

the corner of driven support (172) is provided with fold steering switch (174), fold steering switch (174) and driven support (172) junction are provided with protective housing (175).

2. The storage device for 5G-based big data connection network according to claim 1, wherein: one side of the separation shell (21) is provided with a lap joint buckle plate (22), and the separation shell (21) is positioned at the top of the butt joint shell (11).

3. The storage device for 5G-based big data connection network according to claim 1, wherein: the locking framework (32) comprises a steering center (321), a limiting bearing (322), a transmission tooth socket (323) and a plug-in switch (324), one end of the limiting bearing (322) is connected to the inside of the steering center (321), the bottom of the transmission tooth socket (323) is installed in the inside of the limiting bearing (322), the other end of the limiting bearing (322) is connected to the inside of the plug-in switch (324), and one end of the plug-in switch (324) is connected to the inside of the angle limiting layer (315).