CN217157199U - Information security flow extraction element based on data mirror image - Google Patents

Abstract

The utility model discloses an information security flow extraction element based on data mirror image, including device main part, support module and thermal module, two square type grooves have transversely been seted up to a side of device main part, and its kerve is semi-circular, and square groove surface configuration baffle, and the both sides transverse side in two square type grooves respectively with the both sides transverse side lower half of two baffles through pivot fixed connection, two the baffle is close to the first one of one side transverse side of device main part and installs the data port, thermal module sets up in device main part top, and thermal module comprises radiating duct, refrigerator and radiator fan, support module is located device main part below comprises the foldable bracing piece of configuration in two rectangle recesses, height-adjustable. The utility model discloses in, can not only prolong the life of device and data port thereof, can adjusting device's height moreover, portable and installation.

Description

Information security flow extraction element based on data mirror image

Technical Field

The utility model relates to an information security equipment technical field especially relates to an information security flow extraction element based on data mirror image.

Background

The information security flow extraction refers to a process of establishing a temporary data mirror image channel of network communication flow for the terminal equipment, acquiring the network communication flow and analyzing the information security characteristics of the terminal equipment, wherein the temporary data mirror image channel is oriented to single or multiple data terminal equipment. The data mirroring is mirroring copy of specific network flow data of the data terminal device through a dedicated device, each connection has data flows in two directions, and is mirroring of an outlet flow and mirroring of an inlet flow. However, the existing equipment is low in use efficiency, when a large amount of data occurs, the efficiency is affected due to the rise of heat, the physical property flexibility of the equipment is not enough, and the height cannot be adjusted, so that a corresponding information security flow extraction device based on data mirroring needs to be provided urgently to meet the needs of practical use.

Disclosure of Invention

The utility model aims at solving the problem, and the information security flow extraction element based on data mirror image that proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an information security flow extraction element based on data mirror image, includes device main part, support module and heat dissipation module, two square groove have transversely been seted up to one side of device main part, and its kerve is semi-circular, and the baffle is disposed on the square groove surface, and the horizontal side in both sides of two square groove respectively with the horizontal side lower half of both sides of two baffles through pivot fixed connection, two the baffle is close to the first half of one side horizontal side of device main part and is installed the data port, heat dissipation module sets up in device main part top, heat dissipation module comprises radiating air duct, refrigerator and radiator fan, support module is located device main part below, by two rectangle recess configuration foldable bracing piece constitutions, height-adjustable.

As a further description of the above technical solution:

two supporting modules are respectively arranged on two sides of the bottom end of the device main body and are designed in a X-shaped bracket height-variable mode, and the two supporting modules comprise two rectangular grooves, two horizontal supporting rods with holes, two diagonal supporting rods without holes, two diagonal supporting rods with holes, two diagonal supporting rods without holes and eight damping rotating shafts.

As a further description of the above technical solution:

when the support module is used, a damping rotating shaft arranged in a rectangular hole at one end of the horizontal support rod with holes is connected with one end of the diagonal support rod with holes, the other end of the diagonal support rod with holes is connected with a damping rotating shaft arranged in a rectangular hole at one end of the rectangular groove, so that a 'Y' -shaped structure can be constructed among the horizontal support rod with holes, the diagonal support rod with holes and the rectangular groove through the damping rotating shaft, one end of the oblique support rod a without holes is connected to the middle point of the diagonal support rod with holes through the damping rotating shaft, and the other end of the oblique support rod a without holes is inserted into a preset limiting hole of the horizontal support rod with holes, so that a stable triangular structure can be constructed together with the oblique support rod with holes and the horizontal support rod with holes; the utility model discloses a portable building box, including the porose bracing piece b that draws to one side, the porose bracing piece b that draws to one side's one end is connected to two inside walls of rectangle recess mid point through the damping pivot, the porose bracing piece b that draws to one side's the other end presets spacing hole through inserting foraminiferous bracing piece that draws to one side, can construct firm triangle-shaped structure together with foraminiferous bracing piece, rectangle recess that draw to one side.

As a further description of the above technical solution:

the device comprises a device body and is characterized in that four rectangular fixing columns are adhesively connected to the vertical side faces of two sides of the device body, rectangular channels are formed in the tops of the four rectangular fixing columns, four connecting columns are arranged in the rectangular channels respectively and are respectively adhesively connected with one ends of four refrigerators, the other ends of the refrigerators are all adhesively connected with a heat dissipation air duct, and a heat dissipation fan is arranged at a rectangular angle above the device in the heat dissipation air duct.

As a further description of the above technical solution:

the heat dissipation air duct is of a 'return' shape structure, four refrigerators are arranged above the four rectangular fixing columns respectively and connected with the tail ends and turning positions of the heat dissipation air duct, and a heat dissipation fan is arranged at one corner above the device main body.

As a further description of the above technical solution:

the height of two stable triangles can be adjusted by adjusting the aporate oblique-pulling support rod a, the aporate oblique-pulling support rod b and the aporate oblique-pulling support rod to connect with the preset limit hole, thereby adjusting the height of the device main body.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

in the utility model, the baffle is slid down through the rotating shaft, the data mirror image port is reused to copy data, thereby preventing the data port from being damaged by dust when not in use, the service life of the port can be prolonged, the damping rotating shaft at one end of the horizontal supporting rod is pulled to rotate the horizontal supporting rod to drive the inclined pull supporting rod with holes and the inclined pull supporting rod without holes, the height of the device can be adjusted by respectively leading the movable ends of the two sections of inclined pull supporting rods without holes into the limiting holes of the horizontal supporting rod and the inclined pull supporting rod with holes, the refrigerator can be fixed on the fixed column of the device main body by inserting the connecting column into the rectangular channel on the fixed column, and the horizontal heat dissipation channel is bonded on four refrigerators, the heat dissipation air duct system can be fixed on the device main body, the disassembly and assembly of the whole heat dissipation module can be convenient, the carrying is convenient, the service life of the device and the data port can be prolonged, and the height of the device can be adjusted, and the device is convenient to carry and install.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the main structure of the present invention;

FIG. 3 is a schematic view of the structure of the support module and the main body of the present invention;

fig. 4 is a schematic structural diagram of a support module according to the present invention;

fig. 5 is a schematic view of the cross-sectional structure of the middle port baffle of the present invention.

Illustration of the drawings:

1. a device main body; 2. fixing a column; 3. a data port; 4. a baffle plate; 5. a heat dissipation module; 6. a support module; 7. a rectangular channel; 8. connecting columns; 51. a heat radiation fan; 52. a refrigerator; 53. a heat dissipation air duct; 61. a rectangular groove; 62. a horizontal support bar; 63. diagonal bracing rods with holes are arranged; 64. a hole-free diagonal bracing rod a; 65. b, a nonporous diagonal bracing rod b; 66. a damping rotating shaft; 67. and a limiting hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-3, an information security flow extraction device based on data mirroring comprises a device body 1, a support module 6 and a heat dissipation module 5, wherein one side surface of the device body 1 is transversely provided with two square grooves, the bottom groove of the device body is semicircular, the surfaces of the square grooves are provided with baffles 4, the two lateral side surfaces of the two square grooves are respectively and fixedly connected with the lower half parts of the two lateral side surfaces of the two baffles 4 through rotating shafts 41, the upper half part of one lateral side surface of the two baffles 4 close to the device body 1 is provided with a data port 3, the heat dissipation module 5 is arranged above the device body 1, the heat dissipation module 5 comprises a heat dissipation air duct 53, a refrigerator 52 and a heat dissipation fan 51, the support module 6 is positioned below the device body 1 and is composed of two rectangular grooves 61 provided with folding support rods, the height of the support module is adjustable, and the model of the data port 3 is an Intel 9301T gigabit ethernet port, two baffles 4 set up respectively in front of two data port 3, during the use, rotate the baffle downwards, drive the data port 3 of bonding behind baffle 4, realize that the port jack rotates 90 degrees downwards, upwards becomes the jack forward from the jack, and reuse data port 3 carries out data exchange.

Two supporting modules 6 are respectively arranged on two sides of the bottom end of the device main body 1, each supporting module 6 is designed to be X-shaped support with variable height, and each supporting module 6 comprises two rectangular grooves 61, two horizontal supporting rods 62 with holes, two diagonal supporting rods 63 with holes, two diagonal supporting rods a64 without holes, two diagonal supporting rods b65 without holes and eight damping rotating shafts 66.

When the supporting module 6 is used, the damping rotating shaft 66 arranged in the rectangular hole at one end of the horizontal supporting rod 62 with the hole is connected with one end of the diagonal supporting rod 63 with the hole, the other end of the diagonal supporting rod 63 with the hole is connected with the damping rotating shaft 66 arranged in the rectangular hole at one end of the rectangular groove 61, so that a 'T' -shaped structure can be constructed among the horizontal supporting rod 62 with the hole, the diagonal supporting rod 63 with the hole and the rectangular groove 61 through the damping rotating shaft 66, one end of the oblique supporting rod a64 without the hole is connected to the middle point of the diagonal supporting rod 63 with the hole through the damping rotating shaft 66, and the other end of the oblique supporting rod a64 without the hole is inserted into the horizontal supporting rod 62 with the hole to preset a limit hole 67, so that a stable triangular structure can be constructed together with the oblique supporting rod 63 with the hole and the horizontal supporting rod 62 with the hole; one end of the imporous diagonal bracing bar b65 is connected to two inner side walls of the midpoint of the rectangular groove 61 through the damping rotating shaft 66, the other end of the imporous diagonal bracing bar b65 is inserted into the foraminous diagonal bracing bar 63 to preset a limit hole 67, and a stable triangular structure can be constructed together with the foraminous diagonal bracing bar 63 and the rectangular groove 61.

The first damping rotating shaft 66 is connected with one end of a horizontal supporting rod 62 with a hole and one end of a diagonal supporting rod 63 with the hole, the second damping rotating shaft 66 is connected with the other end of the diagonal supporting rod 63 with the hole and a rectangular groove 61, so that a 'Y' structure can be constructed by the damping rotating shaft 66 among the horizontal supporting rod 62 with the hole, the diagonal supporting rod 63 with the hole and the rectangular groove 61, the third damping rotating shaft 66 is connected with one end of an unapertured diagonal supporting rod a64 and the middle point of the diagonal supporting rod 63 with the hole, the fourth damping rotating shaft 66 is connected with one end of an unapertured diagonal supporting rod b65 and two inner side walls of the middle point of the rectangular groove 61, when the supporting module 6 is used for adjusting the height of the device main body 1, the horizontal supporting rod 62 with the hole can be pulled downwards, then the movable end of the unapertured diagonal supporting rod a64 is inserted into the horizontal supporting rod 62 with the hole to preset a limiting hole 67, the unapertured diagonal supporting rod a64, the diagonal supporting rod 63 with the hole and the horizontal supporting rod 62 together construct a stable triangular structure with the hole.

Device main part 1's the vertical side adhesive connection in both sides has four rectangle fixed columns 2, rectangular channel 7 has all been seted up at four rectangle fixed column 2's top, be provided with four spliced poles 8 in four rectangular channel 7 respectively, four spliced poles 8 respectively with four refrigerator 52's one end adhesive connection, four refrigerator 52's the other end all with heat dissipation air duct 53 adhesive connection, heat dissipation air duct 53 installs radiator fan 51 in a rectangle angle department in the device top, when needing to dismantle, when dismantling, extract spliced pole 8 from fixed column 2's rectangular channel 7.

The heat dissipation air channel 53 is in a 'return' shape, four refrigerators 52 are arranged above the four rectangular fixing columns 2 respectively and connected with the tail ends and turning positions of the heat dissipation air channel 53, a corner above the device main body 1 is provided with a heat dissipation fan 51, the models of the refrigerators 52 are TEC1-12710, an air inlet 54 is formed in the rear of the other end of the heat dissipation air channel, air entering through the air inlet 54 flows in the heat dissipation air channel 53 under the air suction effect formed by the work of the heat dissipation fan 51, and after being refrigerated by the refrigerators 52, the heat of the device is absorbed and then is exhausted through the heat dissipation fan 51.

The height of the two stable triangles can be adjusted by adjusting the connection of the imporous diagonal bracing piece a64, the imporous diagonal bracing piece b65 and the imporous diagonal bracing piece with the preset limit hole 67, so that the height of the device main body 1 is adjusted.

The working principle is as follows: the baffle 4 is slid down through the rotating shaft, the data mirror image port is used for copying data, thereby preventing the data port 3 from being damaged by dust when not used, the service life of the port can be prolonged, the damping rotating shaft 66 at one end of the horizontal supporting rod 62 is pulled to drive the horizontal supporting rod 62 to rotate, the inclined pull supporting rod 63 with holes and the inclined pull supporting rod without holes are driven, the movable ends of the two sections of inclined pull supporting rods without holes are respectively led into the horizontal supporting rod 62 and the limiting hole 67 of the inclined pull supporting rod with holes, namely the height of the device can be adjusted, the refrigerator 52 can be fixed on the fixed column 2 of the device main body 1 by inserting the connecting column 8 into the rectangular channel 7 on the fixed column 2, the horizontal heat dissipation channels are bonded on the four refrigerators 52, the heat dissipation air duct 53 system can be fixed on the device main body 1, the disassembly and assembly of the whole heat dissipation module 5 can be convenient, the carrying is convenient, the service life of the device and the data port 3 can be prolonged, and the height of the device can be adjusted, and the device is convenient to carry and install.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims (6)

1. An information security flow extraction device based on data mirroring comprises a device main body (1), a support module (6) and a heat dissipation module (5), and is characterized in that one side surface of the device main body (1) is transversely provided with two square grooves, the bottom groove of each square groove is semicircular, baffles (4) are arranged on the surfaces of the square grooves, the transverse side surfaces of the two sides of each square groove are fixedly connected with the lower half parts of the transverse side surfaces of the two sides of the two baffles (4) through rotating shafts (41), the upper half part of one transverse side surface of one side, close to the device main body (1), of the two baffles (4) is provided with a data port (3), the heat dissipation module (5) is arranged above the device main body (1), the heat dissipation module (5) consists of a heat dissipation air duct (53), a refrigerator (52) and a heat dissipation fan (51), and the support module (6) is positioned below the device main body (1), the height of the foldable support rod is adjustable, and the foldable support rod is arranged in two rectangular grooves (61).

2. The information security flow extraction element based on data mirror image of claim 1, characterized in that, two support modules (6) have respectively been seted up to the both sides of the bottom of device main part (1), and two support modules (6) are the variable design of X type support height, two support modules (6) comprise two rectangle recess (61), two foraminiferous horizontal support pole (62), two foraminiferous oblique pull bracing piece (63), two sclausura oblique pull bracing piece a (64), two oblique sclausura bracing piece b (65) and eight damping pivot (66).

3. The information security flow extraction device based on the data mirror image as claimed in claim 2, wherein when the support module (6) is in use, the damping rotation shaft (66) installed in the rectangular hole at one end of the horizontal support rod (62) with holes is connected with one end of the diagonal support rod (63) with holes, the other end of the diagonal support rod (63) with holes is connected with the damping rotation shaft (66) installed in the rectangular hole at one end of the rectangular groove (61), so that a zigzag structure can be constructed among the horizontal support rod (62) with holes, the diagonal support rod (63) with holes and the rectangular groove (61) through the damping rotation shaft (66), one end of the diagonal support rod a (64) without holes is connected to the midpoint of the diagonal support rod (63) with holes through the damping rotation shaft (66), the other end of the diagonal support rod a (64) without holes is inserted into the horizontal support rod (62) with holes to preset a limit hole (67), a stable triangular structure can be constructed together with the inclined pull supporting rod (63) with holes and the horizontal supporting rod (62) with holes; the one end of sclausura inclined pull bracing piece b (65) is connected to two inside walls of rectangle recess (61) mid point through damping pivot (66), the other end of sclausura inclined pull bracing piece b (65) is through inserting foraminiferous inclined pull bracing piece (63) and predetermine spacing hole (67), can construct firm triangular structure together with foraminiferous inclined pull bracing piece (63), rectangle recess (61).

4. The information security flow extraction device based on the data mirror image as claimed in claim 1, wherein the device main body (1) is connected with four rectangular fixing columns (2) in an adhering manner on the vertical side surfaces of the two sides, rectangular channels (7) are formed on the tops of the four rectangular fixing columns (2), four connecting columns (8) are arranged in the four rectangular channels (7), the four connecting columns (8) are respectively connected with one ends of four refrigerators (52) in an adhering manner, the other ends of the four refrigerators (52) are respectively connected with a heat dissipation air duct (53) in an adhering manner, and a heat dissipation fan (51) is installed at one rectangular corner above the device in the heat dissipation air duct (53).

5. The information security flow extraction device based on data mirroring according to claim 1, wherein the heat dissipation air duct (53) is of a zigzag structure, four refrigerators (52) are configured to be respectively arranged above four rectangular fixing columns (2) and connected to the end and the turning of the heat dissipation air duct (53), and a heat dissipation fan (51) is arranged at one corner above the device body (1).

6. The information safety flow extraction device based on the data mirror image according to claim 3, characterized in that the height of two stable triangles can be adjusted by adjusting the nonporous diagonal bracing rod a (64), the nonporous diagonal bracing rod b (65) and the nonporous diagonal bracing rod to connect a preset limit hole (67), thereby adjusting the height of the device body (1).

Images