CN114007363A - Big data information storage device of multifunctional communication equipment - Google Patents

Abstract

The invention provides a large data information storage device of multifunctional communication equipment, which belongs to the technical field of communication equipment and comprises an installation box, an elastic ejection piece, a protection box, a locking part, a power supply and a temperature sensing part, wherein one side of the installation box is provided with a notch for the protection box to pass in and out, one side of the protection box is connected with the inner wall of the installation box through the elastic ejection piece, the locking part, the power supply and the temperature sensing part are all arranged in the installation box, and when the protection box enters the installation box, the locking part can lock the protection box. Compared with the prior art, the protection box and the chip and other parts inside the protection box can be automatically ejected out of the installation box when the temperature rises due to factors such as fire and the like in the installation box, so that the protection of the chip is realized, the protection box is prevented from being influenced by high temperature in the installation box to damage important parts such as the chip and the like in the protection box, and the safety and the protection performance are improved.

Description

Big data information storage device of multifunctional communication equipment

Technical Field

The invention belongs to the technical field of communication equipment, and particularly relates to a big data information storage device of multifunctional communication equipment.

Background

The communication equipment is wired communication equipment and wireless communication equipment used for industrial control environment, and when the communication equipment works, big data information of an internal system needs to be stored through a corresponding storage device so that corresponding processing equipment can collect and process data conveniently.

At present, communication equipment during operation, its inside produces a large amount of heats easily, when these heats can't be dispersed fast or because of factors such as communication equipment internal line are ageing lead to the inside conflagration that takes place of communication equipment easily, and then burns out the more valuable part, like the chip etc. and then leads to loss of property, consequently, current communication equipment's security is relatively poor, needs improvement urgently.

Disclosure of Invention

In view of the above-mentioned deficiencies of the prior art, an embodiment of the present invention provides a big data information storage device for a multifunctional communication device.

In order to solve the technical problems, the invention provides the following technical scheme:

a big data information storage device of multifunctional communication equipment comprises an installation box, an elastic ejection piece, a protection box, a locking part, a power supply and a temperature sensing part,

one side of the installation box is provided with a gap for the protective box to pass in and out, one side of the protective box is connected with the inner wall of the installation box through the elastic supporting piece,

the locking part, the power supply and the temperature sensing part are all arranged in the installation box, when the protection box enters the installation box, the locking part can lock the protection box,

the temperature sensing part is used for detecting the temperature in the installation box,

when the temperature in the installation box is higher than a preset value, the power supply can be electrically connected with the locking part to unlock the protection box, and the elastic supporting piece can push the protection box out of the installation box.

As a further improvement of the invention: an elastic sheet is arranged at one end of the protection box facing the inside of the installation box, a hook part is arranged at one end of the elastic sheet far away from the protection box,

the locking part comprises a motor, a rotating shaft and a fixing piece, the rotating shaft is arranged at the output end of the motor, the fixing piece is fixedly arranged on one side of the rotating shaft, and an opening for the hook part to enter is formed in the fixing piece.

As a further improvement of the invention: the temperature sensing part comprises a column casing, a first conductive core, a second conductive core, a glass ball and an extension tube,

the first conductive core and the second conductive core are arranged in the cylindrical shell and distributed at intervals, one end of the extension tube is connected with the side wall of the cylindrical shell and is communicated with the area between the first conductive core and the second conductive core, one end of the extension tube, far away from the cylindrical shell, is communicated with the glass ball,

the mercury is stored in the glass ball, the first conductive core is connected with the power supply through a lead, and the second conductive core is connected with the motor through a lead.

As a further improvement of the invention: one end of the protection box extends from the notch to the outside of the installation box and is fixedly provided with a first end plate, the other end of the protection box extends from the notch to the inside of the installation box and is fixedly provided with a second end plate, the areas of the first end plate and the second end plate are both larger than the vertical sectional area of the protection box,

the elastic sheet is fixedly arranged on one side, far away from the protective box, of the second end plate, one end of the elastic ejection piece is connected with the inner wall of the installation box, and the other end of the elastic ejection piece is connected with one side, far away from the protective box, of the second end plate.

As a still further improvement of the invention: one side of the second end plate, which is far away from the elastic ejection piece, is connected with the inner wall of the installation box through two groups of flexible layers,

two sets of flexible layers are ring structures, one of the flexible layers is sleeved outside the other flexible layer, a chamber for storing fire extinguishing media is formed between the two flexible layers, and a discharge pipe communicated with the chamber is arranged on the side wall of the flexible layer positioned on the outer side.

As a still further improvement of the invention: the side wall of the flexible layer positioned at the outer side is also connected with a delivery pipe communicated with the chamber, one end of the delivery pipe far away from the flexible layer extends to the outside of the installation box and is connected with a storage box,

the inside fire extinguishing medium that is equipped with of bin, all be provided with the check valve in the conveyer pipe and in the discharge pipe.

As a still further improvement of the invention: the inside guide that still is provided with of install bin, guide both ends respectively with install bin inside relative lateral wall fixed connection, the guide run through the second end plate and with second end plate clearance fit.

Compared with the prior art, the invention has the beneficial effects that:

in the embodiment of the invention, important parts such as chips of communication equipment are arranged in the protective box, the protective box is pushed to enter the installation box, and the protective box is locked by the locking part, so that the stability of the protective box is ensured; when the temperature rose because of factors such as the installation incasement portion that catches fire, the temperature sensing portion can realize the electric conduction between power and the sticking department, can relieve the locking state of protective housing this moment, utilize elasticity ejecting piece can be ejecting protective housing from the installation incasement portion, compare in prior art, can be when factors such as the installation incasement portion that should catch fire lead to the temperature to rise, can pop out the protective housing to the installation incasement portion with parts such as its inside chip are automatic, realize the protection of chip, and then avoid the protective housing to receive the inside high temperature influence of installation incasement, lead to the damage of important parts such as its inside chip, improve security and protectiveness.

Drawings

FIG. 1 is a schematic structural diagram of a big data information storage device of a multifunctional communication device;

FIG. 2 is a schematic structural diagram of a protective box in a big data information storage device of a multifunctional communication apparatus;

FIG. 3 is an enlarged view of area A of FIG. 1;

FIG. 4 is an enlarged view of the area B in FIG. 1;

FIG. 5 is an enlarged view of area C of FIG. 1;

in the figure: 10-installation box, 101-bracket, 20-guide piece, 30-elastic ejection piece, 40-flexible layer, 401-storage box, 402-conveying pipe, 403-discharging pipe, 50-protection box, 501-first end plate, 502-installation opening, 503-sealing door, 504-second end plate, 505-elastic piece, 506-hook part, 60-locking part, 601-motor, 602-rotating shaft, 603-fixing piece, 604-hole, 70-power supply, 80-temperature sensing part, 801-column barrel, 802-first conductive core, 803-extension pipe, 804-glass ball and 805-second conductive core.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

Referring to fig. 1, the present embodiment provides a big data information storage device of a multifunctional communication device, including an installation box 10, an elastic ejector 30, a protection box 50, a locking portion 60, a power supply 70, and a temperature sensing portion 80, wherein a notch for allowing the protection box 50 to enter and exit is formed on one side of the installation box 10, one side of the protection box 50 is connected to an inner wall of the installation box 10 through the elastic ejector 30, the locking portion 60, the power supply 70, and the temperature sensing portion 80 are all disposed inside the installation box 10, when the protection box 50 enters the installation box 10, the locking portion 60 can lock the protection box 50, the temperature sensing portion 80 is configured to detect a temperature inside the installation box 10, when the temperature inside the installation box 10 is higher than a predetermined value, the power supply 70 can be electrically connected to the locking portion 60 to unlock the protection box 50, the elastic supporting member 30 can eject the protection box 50 to the outside of the installation box 10.

Important parts such as chips of communication equipment are installed inside the protective box 50, the protective box 50 is pushed, the protective box 50 enters the installation box 10, and the protective box 50 is locked by the locking part 60, so that the stability of the protective box 50 is ensured; when the temperature inside the installation box 10 rises due to factors such as fire, the temperature sensing part 80 can realize the electric conduction between the power supply 70 and the locking part 60, at this time, the locking state of the protection box 50 can be released, the protection box 50 can be ejected from the inside of the installation box 10 by using the elastic ejecting part 30, and further the protection box 50 is prevented from being influenced by the high temperature inside the installation box 10 to cause the damage of important parts such as chips inside the installation box, and the like, and the protection effect is realized.

Referring to fig. 1, 2 and 5, in an embodiment, an elastic piece 505 is disposed at an end of the protection box 50 facing the inside of the mounting box 10, a hook 506 is disposed at an end of the elastic piece 505 away from the protection box 50, the locking portion 60 includes a motor 601, a rotating shaft 602 and a fixing piece 603, the rotating shaft 602 is disposed at an output end of the motor 601, the fixing piece 603 is fixedly mounted at one side of the rotating shaft 602, and an opening 604 for the hook 506 to enter is formed in the fixing piece 603.

When the protection box 50 is pushed to drive the protection box 50 to enter the installation box 10, the hook portion 506 can act on one side of the fixing plate 603, at the moment, the elastic plate 505 is stressed and bent, the hook portion 505 is attached to one side of the fixing plate 603 to slide, and when the hook portion 50 slides to one side of the opening 604, the hook portion 506 is hooked into the opening 506 by utilizing the restoring action of the elastic plate 505, so that the protection box 50 is locked.

Referring to fig. 4, in an embodiment, the temperature sensing portion 80 includes a cylinder 801, a first conductive core 801, a second conductive core 805, a glass ball 804, and an extension tube 803, where the first conductive core 801 and the second conductive core 805 are both disposed inside the cylinder 801 and distributed at intervals, one end of the extension tube 803 is connected to a side wall of the cylinder 801 and is communicated with a region between the first conductive core 801 and the second conductive core 805, one end of the extension tube 803, away from the cylinder 801, is communicated with the glass ball 804, mercury is stored inside the glass ball 804, the first conductive core 801 is connected to the power supply 70 through a wire, and the second conductive core 805 is connected to the motor 601 through a wire.

When the temperature inside the installation box 10 rises due to factors such as fire, mercury inside the glass ball 804 is heated and expanded, and enters the region between the first conductive core 801 and the second conductive core 805 through the extension tube 803, so that the first conductive core 801 and the second conductive core 805 are electrically conducted, at this time, the power supply 70 can output current to the motor 601 through the first conductive core 801 and the second conductive core 805, the motor 601 is started to drive the rotating shaft 602 to rotate, and further drive the fixing plate 603 to rotate, so that the hook portion 506 is removed from the inside of the opening 604, at this time, the elastic ejection member 30 can drive the protection box 50 to move to the outside of the installation box 10, so as to prevent the protection box 50 from being in a high-temperature environment inside the installation box 10, and avoid damage to important parts such as chips inside the protection box 50.

Referring to fig. 1, in an embodiment, one end of the protection box 50 extends from the notch to the outside of the installation box 10 and is fixedly provided with a first end plate 501, the other end of the protection box 50 extends from the notch to the inside of the installation box 10 and is fixedly provided with a second end plate 504, and areas of the first end plate 501 and the second end plate 504 are both larger than a vertical sectional area of the protection box 50, so that when the protection box 50 moves towards the inside of the installation box 10, the first end plate 501 can abut against the outer wall of the installation box 10, and when the protection box 50 moves towards the outside of the installation box 10, the second end plate 504 can abut against the inner wall of the installation box 10, so as to position the protection box 50; the elastic piece 505 is fixedly disposed on a side of the second end plate 504 far away from the protection box 50, one end of the elastic ejection member 30 is connected to the inner wall of the installation box 10, and the other end is connected to a side of the second end plate 504 far away from the protection box 50.

Referring to fig. 1, in an embodiment, a mounting opening 502 communicating with an inner cavity of the protection box 50 is formed in the first end plate 501, a sealing door 503 is hinged in the mounting opening 502, and when a chip or other component is mounted, the sealing door 503 can be opened to place the chip or other component into the protection box 50 from the mounting opening 502 for mounting.

Referring to fig. 1 and 2, in an embodiment, one side of the second end plate 504, which is away from the elastic ejection member 30, is connected to the inner wall of the installation box 10 through two sets of flexible layers 40, the two sets of flexible layers 40 are both in an annular structure, one set of flexible layer 40 is sleeved outside the other set of flexible layer 40, a chamber for storing a fire extinguishing medium is formed between the two sets of flexible layers 40, and a discharge pipe 403 communicated with the chamber is disposed on a side wall of the outer set of flexible layers 40.

When the elastic ejector 30 drives the protection box 50 to move towards the outside of the installation box 10, the second end plate 504 can extrude the two sets of flexible layers 40, the two sets of flexible layers 40 are compressed, the fire extinguishing medium in the cavity can be extruded out through the discharge pipe 403 and enters the installation box 10, and the fire extinguishing medium is used for conducting fire extinguishing treatment on the inside of the installation box 10.

Referring to fig. 1 and 2, in one embodiment, a delivery pipe 402 communicating with the chamber is further connected to a side wall of the flexible layer 40 located at an outer side, one end of the delivery pipe 402 away from the flexible layer 40 extends to an outside of the installation box 10 and is connected to a storage box 401, a fire extinguishing medium is stored in the storage box 401, and check valves are disposed in the delivery pipe 402 and the discharge pipe 403.

When the protection box 50 moves towards the inside of the installation box 10, the flexible layer 40 can be driven to be unfolded, the space inside the chamber is increased, and due to the existence of the one-way valve, the fire extinguishing medium inside the storage box 401 can be extracted from the conveying pipe 402 to the inside of the chamber, so that the supplement of the fire extinguishing medium is realized.

In an embodiment, the flexible layer 40 may be a rubber layer or a plastic layer, which is not limited herein, the extinguishing medium may be a dry powder extinguishing agent, or an inert gas, such as helium or argon, and the elastic ejection member 30 may be a spring or a metal elastic sheet, which is not limited herein.

Referring to fig. 1, in an embodiment, a guide 20 is further disposed inside the installation box 10, two ends of the guide 20 are respectively fixedly connected to opposite sidewalls inside the installation box 10, and the guide 20 penetrates through the second end plate 504 and is movably engaged with the second end plate 504.

Through the arrangement of the guide member 20, a guiding function can be provided for the protection box 50 when moving, so that the protection box 50 can be stably moved.

In one embodiment, the guiding element 20 may be a guiding rod or a guiding tube, which is not limited herein.

Referring to fig. 1 and 3, in an embodiment, a support 101 is fixedly disposed on an inner wall of the installation box 10, and the motor 601 and the column 801 are both fixedly mounted on one side of the support 101.

In another embodiment, a permanent magnet is further disposed on a side of the second end plate 504 away from the protection box 50, the locking portion 60 further comprises an electromagnet disposed opposite to the permanent magnet, the temperature sensing portion 80 further comprises a temperature sensor, a single chip microcomputer, a first conductive sheet, a second conductive sheet, a third conductive sheet, and a cylinder, the first conductive sheet and the third conductive sheet are distributed at intervals, the second conductive sheet is disposed between the first conductive sheet and the third conductive sheet, an output end of the cylinder is connected to the second conductive sheet, the first conductive sheet is connected to the power source 70 through a wire, the second conductive sheet is connected to the electromagnet through a wire, the temperature sensor and the cylinder are both electrically connected to the single chip microcomputer, the temperature sensor is configured to detect an internal temperature of the installation box 10 and transmit temperature information to the single chip microcomputer, the single chip microcomputer controls the cylinder to move according to the temperature information, when the temperature in the installation box 10 is lower than a preset value, the single chip microcomputer controls the air cylinder to move, the air cylinder drives the second conducting strip to move and is connected with the first conducting strip and the third conducting strip simultaneously, so that electric conduction between the power supply 70 and the electromagnet is realized, the electromagnet is electrified to generate magnetism, and then attraction is generated on the permanent magnet, so that the protection box 50 is limited in the installation box 10, and the stability of the protection box 50 is ensured; when the temperature in the installation box 10 is higher than the preset value, the single chip microcomputer controls the air cylinder to move reversely, the air cylinder drives the second conducting strip to move reversely and separate from the first conducting strip and the third conducting strip simultaneously, then the connection between the power supply 70 and the electromagnet is disconnected, the electromagnet is not magnetic, at the moment, the elastic ejection piece 30 protection boxes 50 are ejected out from the interior of the installation box 10, and the protection of parts such as chips is realized.

In the embodiment of the present invention, important parts such as chips of communication equipment are mounted inside the protection box 50, and the protection box 50 is pushed, so that the protection box 50 enters the mounting box 10, and the protection box 50 is locked by the locking part 60, so as to ensure the stability of the protection box 50; when the temperature rises due to factors such as fire in the installation box 10, the temperature sensing part 80 can realize the electric conduction between the power supply 70 and the locking part 60, the locking state of the protection box 50 can be released at the moment, the protection box 50 can be ejected out of the installation box 10 by utilizing the elastic ejecting part 30, compared with the prior art, when the temperature rises due to factors such as fire in the installation box 10, the protection box 50 can be automatically ejected out of the installation box 10 together with parts such as a chip in the protection box 50, the protection of the chip is realized, the protection box 50 is prevented from being influenced by high temperature in the installation box 10, the damage of important parts such as the chip in the protection box is caused, and the safety and the protection performance are improved.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (7)

1. A big data information storage device of multifunctional communication equipment is characterized by comprising an installation box, an elastic ejection piece, a protection box, a locking part, a power supply and a temperature sensing part,

one side of the installation box is provided with a gap for the protective box to pass in and out, one side of the protective box is connected with the inner wall of the installation box through the elastic supporting piece,

the locking part, the power supply and the temperature sensing part are all arranged in the installation box, when the protection box enters the installation box, the locking part can lock the protection box,

the temperature sensing part is used for detecting the temperature in the installation box,

when the temperature in the installation box is higher than a preset value, the power supply can be electrically connected with the locking part to unlock the protection box, and the elastic supporting piece can push the protection box out of the installation box.

2. The multifunctional communication equipment big data information storage device according to claim 1, wherein an end of the protection box facing the inside of the installation box is provided with an elastic piece, an end of the elastic piece away from the protection box is provided with a hook part,

the locking part comprises a motor, a rotating shaft and a fixing piece, the rotating shaft is arranged at the output end of the motor, the fixing piece is fixedly arranged on one side of the rotating shaft, and an opening for the hook part to enter is formed in the fixing piece.

3. The multifunctional communication equipment big data information storage device of claim 2, wherein the temperature sensing part comprises a cylinder, a first conductive core, a second conductive core, a glass ball and an extension tube,

the first conductive core and the second conductive core are arranged in the cylindrical shell and distributed at intervals, one end of the extension tube is connected with the side wall of the cylindrical shell and is communicated with the area between the first conductive core and the second conductive core, one end of the extension tube, far away from the cylindrical shell, is communicated with the glass ball,

the mercury is stored in the glass ball, the first conductive core is connected with the power supply through a lead, and the second conductive core is connected with the motor through a lead.

4. The mass data information storage device of multifunctional communication equipment as claimed in claim 2, wherein one end of the protection box extends from the gap to the outside of the installation box and is fixedly provided with a first end plate, the other end of the protection box extends from the gap to the inside of the installation box and is fixedly provided with a second end plate, the area of each of the first end plate and the second end plate is larger than the vertical sectional area of the protection box,

the elastic sheet is fixedly arranged on one side, far away from the protective box, of the second end plate, one end of the elastic ejection piece is connected with the inner wall of the installation box, and the other end of the elastic ejection piece is connected with one side, far away from the protective box, of the second end plate.

5. The multifunctional communication equipment big data information storage device as claimed in claim 4, wherein the side of the second end plate away from the elastic ejection member is connected with the inner wall of the installation box through two sets of flexible layers,

two sets of flexible layers are ring structures, one of the flexible layers is sleeved outside the other flexible layer, a chamber for storing fire extinguishing media is formed between the two flexible layers, and a discharge pipe communicated with the chamber is arranged on the side wall of the flexible layer positioned on the outer side.

6. The mass data information storage device of multifunctional communication equipment as claimed in claim 5, wherein the side wall of the flexible layer at the outer side is further connected with a delivery pipe communicated with the chamber, one end of the delivery pipe far away from the flexible layer extends to the outside of the installation box and is connected with a storage box,

the inside fire extinguishing medium that is equipped with of bin, all be provided with the check valve in the conveyer pipe and in the discharge pipe.

7. The big data information storage device of multifunctional communication equipment as claimed in claim 4 or 5, wherein a guide is further disposed inside the installation box, two ends of the guide are respectively and fixedly connected with opposite side walls inside the installation box, and the guide penetrates through the second end plate and is movably engaged with the second end plate.

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