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CN-224232180-U - Storage device with self-destruction function

CN224232180UCN 224232180 UCN224232180 UCN 224232180UCN-224232180-U

Abstract

The utility model provides a storage device with a self-destruction function, which comprises an upper shell, a sliding button module, a storage module and a lower shell, wherein an opening is penetrated above one upper shell, a partition plate member contained in the sliding button module is arranged below the upper shell, the partition plate member is provided with a flexible part, a sliding button member is arranged above one partition plate member in a sliding way, the sliding button member protrudes out of and is arranged at the opening, the storage module comprises a circuit board, a storage element, a control element and a switch, the lower shell is arranged below the storage module, the upper shell and the lower shell cover the storage module, and the sliding button member slides and is pressed against the flexible part, so that the flexible part presses the switch, and the control element breaks down the storage element through a boost conversion unit.

Inventors

  • ZHANG JINFENG
  • Ma Xunjia
  • WU WENWANG
  • WENG ZHENFENG
  • CHEN GUANZHEN
  • LIN BAIQUAN

Assignees

  • 十铨科技股份有限公司

Dates

Publication Date
20260512
Application Date
20250516

Claims (9)

  1. 1. A storage device with self-destruction function, comprising: An upper shell, an opening is arranged above the upper shell in a penetrating way: a slide button module, comprising: A partition member disposed below the upper housing, the partition member having a flexible portion, and A sliding button piece which is arranged above one side of the partition plate piece in a sliding way, and the sliding button piece protrudes out and is arranged on the opening in a sliding way; A storage module, comprising: a circuit board disposed below the partition member; the storage element is electrically connected with and arranged on the circuit board; A control element electrically connected to the circuit board and electrically connected to the storage element, the control element comprising a boost conversion unit electrically connected to the storage element, and A switch disposed above the circuit board corresponding to the flexible portion and electrically connected to the control element, and A lower housing disposed below the storage module, wherein the upper housing and the lower housing cover the storage module; Wherein the sliding button slides between the opening and the partition plate, and the sliding button slides and is pressed against the flexible part to enable the flexible part to press the switch and generate a pressing signal, the control element makes the boost conversion unit generate a voltage signal to the storage element according to the pressing signal so as to break down the storage element.
  2. 2. The self-destroying storage device according to claim 1, wherein a limiting member is disposed below an inner side of the upper housing corresponding to the sliding button.
  3. 3. The storage device with self-destruction function as claimed in claim 2, wherein a snap fastener is disposed at an outer side of the sliding button, and when the sliding button slides and is pressed against the flexible portion, the flexible portion presses the switch and generates the pressing signal, and the snap fastener moves from one side of the limiting member to the other side of the limiting member, so that the snap fastener is snapped to the other side of the limiting member.
  4. 4. The storage device with self-destruction function according to claim 1, wherein a protruding member is disposed below the flexible portion, and the protruding member is correspondingly pressed against the switch when the sliding button slides and is pressed against the flexible portion.
  5. 5. The self-destroying storage device according to claim 1, wherein a rail is disposed above the partition member, and the sliding button is slidably disposed on the partition member.
  6. 6. The device of claim 1, wherein the circuit board is provided with a connection port, the connection port is electrically connected to the circuit board and is electrically connected to the control element.
  7. 7. The storage device with self-destruction function as in claim 6, wherein an outer side of the lower housing is provided with a connection port, and the connection port is correspondingly provided with the connection port.
  8. 8. The storage device with self-destruction function according to claim 6, wherein the circuit board is provided with a connection port as a universal serial bus.
  9. 9. The storage device with self-destruction function as in claim 1, further comprising a power module disposed between the upper housing and the partition member, wherein the power module is electrically connected to the control element and the boost converter unit.

Description

Storage device with self-destruction function Technical Field The utility model relates to a storage device with a self-destruction function, which is a storage device for physically destroying data of a storage element. Background Nowadays, information technology is rapidly developed, data storage and transmission are increasingly convenient, and Solid state disks (Solid STATE DRIVE, SSD) are increasingly widely used in personal computers, mobile devices, servers and cloud storage systems. Solid state disk is designed to replace traditional hard disk, and the main element for storing data is integrated circuit as storage element. Compared with the traditional hard disk, the disk arranged inside is rotated by the motor, so that data is read and written by the rotating disk and the related access control circuit, but the storage elements for accessing the data inside the solid state disk are integrated circuits, so that compared with the traditional hard disk, no disk and no internal mechanical parts are arranged, and the access data mechanism of the solid state disk is completely different from that of the traditional hard disk. In various fields of confidentiality management, the confidentiality of information is particularly important, and the data leakage may cause significant economic loss or security risk, so as to prevent unauthorized access, common methods in the prior art include data encryption, access authority control, remote deletion, and the like. However, the above-mentioned solid state disk cannot completely prevent the restoration of the higher-order data restoration tool, which is only dependent on data encryption, formatting or simple data coverage, so how to ensure the reliability of data destruction and to achieve fast execution is an important issue that has not been fully solved in the prior art. In summary, although the conventional technology provides a certain degree of data protection and self-destruction capability, there is still a room for improvement in many aspects such as incomplete data deletion, insufficient triggering reliability, limited flexibility of device use, etc., so that there is a need to conveniently and rapidly destroy the data of the solid state disk in physical form to ensure the confidentiality and privacy of the information of the user. In view of the above-mentioned problems of the prior art, the present utility model provides a storage device with self-destruction function, which is triggered by a slide button to make a control element destroy the data of the storage element in a physical manner. Disclosure of utility model An objective of the present utility model is to provide a storage device with a self-destruction function, which uses a sliding button to trigger a control element to physically destroy data of the storage element in a voltage breakdown manner, so as to quickly solve the problem of ensuring that the data of the storage device is deleted. In order to achieve the above-mentioned objects and effects, the utility model provides a storage device with self-destruction function, which comprises an upper shell, a sliding button module, a storage module and a lower shell, wherein an opening is penetrated above the upper shell, the sliding button module comprises a partition plate which is arranged below the upper shell, the partition plate is provided with a flexible part, a sliding button piece which is arranged above the partition plate in a sliding way, the sliding button piece protrudes out and is arranged at the opening in a sliding way, the storage module comprises a circuit board which is arranged below the partition plate, a storage element which is electrically connected and arranged at the circuit board, a control element which is electrically connected and arranged at the circuit board, the control element is electrically connected with the storage element, the boost conversion unit is electrically connected with the storage element, a switch which is arranged above the circuit board corresponding to the flexible part, the switch is electrically connected with the control element, the lower shell is arranged below the storage module, the upper shell and the sliding button piece protrudes out and is arranged at the opening, the sliding button piece is pressed down, the storage element is triggered by pressing the sliding button piece, and the sliding button is pressed down on the flexible part, the storage element is triggered by the sliding button is triggered by the signal, and the storage device is triggered by the sliding button piece to be broken down, and the flexible storage element is triggered by the flexible signal. In an embodiment of the utility model, a limiting member is disposed below an inner side of the upper housing corresponding to the sliding button. In an embodiment of the present utility model, a fastening piece is disposed at an outer side of the sliding button, and when the sliding button slides and is pressed a