CN215897738U - Cross-network data transmission box - Google Patents

Abstract

The utility model discloses a cross-network data transmission box, which comprises: the data transmission device is arranged in the shell; the data transmission device comprises a first base, a supporting structure and a data unloading device fixedly connected to the supporting structure, wherein a sliding rail is arranged on the first base, and the first base is connected with the supporting structure in a sliding mode through the sliding rail; the sliding rail is connected with a first side surface and a second side surface of the shell, the first side surface is provided with a first opening, and the second side surface is provided with a second opening; the supporting structure is used for sliding on the sliding track to drive the data unloading device to move to the first opening, and data are obtained from the internet host, or the data unloading device is driven to move to the second opening, and data are encrypted by the data encryption box and then unloaded to the intranet host through the data encryption box. The utility model has simple structure, saves the manual transmission cost on one hand, and improves the efficiency of cross-network data transmission on the other hand.

Description

Cross-network data transmission box

Technical Field

The utility model relates to the technical field of data transmission, in particular to a cross-network data transmission box.

Background

With the continuous development of the information society, computer network security is more and more concerned by various fields, people are more and more concerned about the rapid transmission and security of information, more units use internal networks built by themselves, and some confidential information can only be checked in the internal networks, so that the internet data transmission is always an urgent matter to be solved, and particularly, government organs pay more attention to the security transmission of the information.

In the prior art, data transmission is carried out in a mode of manually combining an optical disk or a flash disk to import an intranet from the internet, but the data transmission mode needs the cooperation of labor cost, so that the working efficiency of staff is reduced, and the cost of manually transmitting information is wasted.

SUMMERY OF THE UTILITY MODEL

The utility model provides a cross-network data transmission box which is simple in structure, saves manual transmission cost on one hand, and improves data transmission efficiency on the other hand.

The utility model is realized by adopting the following technical scheme: an inter-network data transmission box, comprising: the data transmission device comprises a first base, a supporting structure and a data unloading device fixedly connected to the supporting structure, a sliding track is arranged on the first base, the first base is connected with the supporting structure in a sliding mode through the sliding track, the sliding track is connected with a first side face and a second side face of the shell, a first opening is formed in the first side face, and a second opening is formed in the second side face; the supporting structure is used for sliding on the sliding track to drive the data unloading device to move to the first opening, so that the data unloading device is connected with an internet host interface to acquire data, or the data unloading device is driven to move to the second opening, so that the data unloading device is connected with an input interface of the data encryption device to enable the data encryption device to encrypt data, and an output interface of the data encryption device is connected with the intranet host to unload the data.

The cross-network data transmission box comprises a shell and a data transmission device arranged in the shell, the data transmission device penetrates through the shell to realize the acquisition and encryption of data, wherein the data transmission device comprises a first base arranged at the bottom of the box, a supporting structure and a data unloading device fixedly connected with the supporting structure, the data transfer device is driven to move by a sliding track arranged on the first base and a supporting structure connected on the sliding track in a sliding way, the sliding track is connected with a first side surface and a second side surface of the shell, the first side surface and the second side surface are both provided with openings, the data unloading device obtains data from an internet host through an opening arranged on the shell, encrypts the data by using the data encryption device, and the encrypted data is transmitted to the intranet host through an output interface of the data encryption device to realize the data unloading. This cross-network data transmission box simple structure, on the one hand, practiced thrift the manual transmission cost, on the other hand has improved data transmission's efficiency.

Further, the support structure comprises: the data unloading device comprises a second base and a fixed column which is rotationally connected to the second base, the data unloading device is fixed on the fixed column, the second base slides on a sliding track, and the direction of the data unloading device is changed by the rotation of the fixed column; so that the data unloading device can be turned from the direction of the first side surface to the direction of the second side surface or from the direction of the second side surface to the direction of the first side surface. The second base in the supporting structure can realize sliding on the sliding track, and when the fixed column connected to the base in a rotating mode rotates, the data transfer and storage device fixed on the fixed column is conveniently driven to rotate from the direction of the first side face to the direction of the second side face or from the direction of the second side face to the direction of the first side face.

Further, when the internet host interface includes: the first interface and the second interface, close to the slip track on the first side includes: the first sliding rail and the second sliding rail are used for enabling the data unloading device to face the first interface when the second base slides to the first side face on the first sliding rail; when the second base slides to the first side surface on the second sliding rail, the data unloading device faces the second interface. The sliding track is divided into a first sliding track and a second sliding track, in order to enable the data unloading device to be connected with a first interface of the internet host or connected with a second interface of the internet host.

Further, when the input interface of the data encryption device comprises: when the second base slides to the second side surface on the third sliding track, the data unloading device faces the third interface; when the second base slides to the second side surface at the fourth sliding track, the data unloading device faces the fourth interface. The sliding track is divided into a third sliding track and a fourth sliding track, and is used for connecting the data unloading device with the first interface of the data encryption device or the second interface of the data encryption device.

Furthermore, an infrared photoelectric device is arranged on the fixing column and is positioned above the data unloading device; the infrared photoelectric equipment is used for obtaining the interface information of an internet host and/or the interface information of the data encryption device, and the interface information comprises: at least one of position information and abnormal information of the interface of the data encryption device; and the cross-network data transmission box controls the sliding motion track of the data unloading device sliding to the upper sliding track by using the interface information of the internet host and/or the interface information of the data encryption device. The infrared photoelectric equipment is arranged above the data unloading device and is mainly used for identifying the position information and the interface abnormal information of an internet host interface and an interface of the data encryption device.

Further, the height of the data unloading device, the first opening and the second opening is the same. This kind of setting mode is convenient for data unloading device to pass through first opening and inserts the internet host computer, perhaps, is convenient for data unloading device to pass through the second opening and inserts the data encryption device.

Further, the data unloading device is at least one of a U disk, an optical disk and a mobile hard disk.

Further, the cross-network data transmission box comprises a data encryption device.

Further, the first side and the second side are two opposite sides.

Compared with the prior art, the utility model has the beneficial effects that:

the cross-network data transmission box comprises a shell and a data transmission device arranged in the shell, the data transmission device penetrates through the shell to realize the acquisition and encryption of data, wherein the data transmission device comprises a first base arranged at the bottom of the box, a supporting structure and a data unloading device fixedly connected with the supporting structure, the data transfer device is driven to move by a sliding track arranged on the first base and a supporting structure connected on the sliding track in a sliding way, the sliding track is connected with a first side surface and a second side surface of the shell, the first side surface and the second side surface are both provided with openings, the data unloading device obtains data from an internet host through an opening arranged on the shell, encrypts the data by using the data encryption device, and the encrypted data is transmitted to the intranet host through an output interface of the data encryption device to realize the data unloading. This cross-network data transmission box simple structure, on the one hand, practiced thrift the manual transmission cost, on the other hand has improved data transmission's efficiency.

Drawings

Fig. 1 is a schematic data transmission diagram of an inter-network data transmission box according to an embodiment of the present invention;

FIG. 2 is a schematic block diagram of an example cross-network data transmission box according to an embodiment of the present invention;

FIG. 3 is a schematic block diagram of an Internet host interface and an input interface of a data encryption device according to an embodiment of the present invention;

FIG. 4 is a schematic block diagram of another example cross-network data transmission box according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of the bottom movement of the cross-network data transmission box according to the embodiment of the present invention.

Reference numerals:

1-a housing; 2-a data transmission device; 3-a first base; 4-a support structure; 5-a data dump device; 6-a sliding track; 7-a first side; 8-a second side; 9-a first opening; 10-a second opening; 11-data encryption means; 12-an input interface of a data encryption device; 13-intranet host interface; 14-a data transmission line; 15-a second base; 16-fixed column; 17-a scaffold; 18-data transfer device fixing column; 19-a first interface; 20-a second interface; 21-a first sliding track; 22-a second sliding track; 23-a third interface; 24-a fourth interface; 25-a third sliding track; 26-a fourth sliding track; 27-an infrared optoelectronic device; 28-origin; 100-an inter-network data transmission box; 200-an internet host; 300-intranet host.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

Specifically describing a cross-network data transmission box provided by the present invention, fig. 1 shows a data transmission schematic diagram of the cross-network data transmission box provided by the present invention, as shown in fig. 1, wherein the cross-network data transmission box 100, an internet host 200, an intranet host 300, and a data encryption device 11 provided by the present invention are shown in the diagram.

It should be understood that, when the internet host 200 needs to transmit data to the intranet host 300, the internet host 200 packages the data to be imported into the intranet, places the data in a designated folder of the internet host 200, and then transmits the data to the data encryption device 11 through the cross-network data transmission box 100 provided by the present invention, and inputs the data into the intranet host 300 after being encrypted.

As shown in fig. 1, the cross-network data transmission box 100 includes: a housing 1 and a data transmission device 2 arranged inside the housing 1.

It is to be understood that the housing 1 may be in the shape of a cube or a cylinder, and that the housing 1 may also comprise a plurality of faces, preferably, the housing 1 of the present invention is in the shape of a cube.

The data transmission device 2 includes: a first base 3, a support structure 4 and a data unloading device 5 fixedly connected to the support structure 4.

It should be understood that the first base 3 is shaped to conform to the shape of the upper surface of the housing 1 in order for the first base 3 to mate with the housing 1.

In fig. 1, a sliding rail 6 is arranged on the first base 3, the first base 3 is slidably connected with the supporting structure 4 through the sliding rail 6, the sliding rail 6 is connected with a first side surface 7 and a second side surface 8 of the housing 1, a first opening 9 is arranged on the first side surface 7, and a second opening 10 is arranged on the second side surface.

The support structure 4 may be in the shape of a tetrahedron or a cylinder, and a data transfer device 5 is connected to the side of the support structure 4. The supporting structure 4 is configured to slide on the sliding track 6 to drive the data unloading device 5 to move to the first opening 9, so that the data unloading device 5 is connected to the internet host interface to obtain data, or to drive the data unloading device 5 to move to the second opening 10, so that the data unloading device 5 is connected to the input interface 12 of the data encryption device to encrypt the obtained data by the data encryption device 11, and the output interface (not shown in fig. 1) of the data encryption device 11 is connected to the intranet host interface 13 to unload the data.

It should be understood that the sliding track 6 may be a straight line or U-shaped, and may be configured according to specific situations, and the embodiment of the present invention is not limited thereto.

Alternatively, the first side surface 7 and the second side surface 8 may be in an opposite positional relationship, and the first side surface 7 and the second side surface 8 may also be in an adjacent positional relationship.

Optionally, the output interface of the data encryption device 11 and the intranet host interface 13 may be connected through a data transmission line 14 to dump data.

With reference to fig. 1, when the casing is a cube, and the first side surface 7 and the second side surface 8 are opposite, after the supporting structure 4 and the data transferring device 5 receive an external data transmission instruction, the supporting structure 4 slides on the sliding rail 6 to drive the data transferring device 5 to the first side surface 7 of the casing 1 to be in interface connection with the internet host through the first opening 9, so as to automatically introduce the data in the internet host 200 into the data transferring device 5, the supporting structure 4 continues to slide on the sliding rail 6 to drive the data transferring device 5 to be in interface connection with the second side surface 8 of the casing 1 through the second opening 10 and the input interface 12 of the data encryption device, so as to encrypt the obtained data in the data encryption device 11, and then transmit the encrypted data to the intranet host 300 through the output interface of the data encryption device 11 for data transferring.

The cross-network data transmission box comprises a shell and a data transmission device arranged in the shell, the data transmission device penetrates through the shell to realize the acquisition and encryption of data, wherein the data transmission device comprises a first base arranged at the bottom of the box, a supporting structure and a data unloading device fixedly connected with the supporting structure, the data transfer device is driven to move by a sliding track arranged on the first base and a supporting structure connected on the sliding track in a sliding way, the sliding track is connected with a first side surface and a second side surface of the shell, the first side surface and the second side surface are both provided with openings, the data unloading device obtains data from an internet host through an opening arranged on the shell, encrypts the data by using the data encryption device, and the encrypted data is transmitted to the intranet host through an output interface of the data encryption device to realize the data unloading. This cross-network data transmission box simple structure, on the one hand, practiced thrift the manual transmission cost, on the other hand has improved data transmission's efficiency.

As a further preferred solution, fig. 2 shows a schematic structural diagram of an exemplary cross-network data transmission box 100 provided by the present invention, as shown in fig. 2, the supporting structure 4 includes a second base 15, a fixing post 16 rotatably connected to the second base 15, the data transferring device 5 is fixed on the fixing post 16, the second base 15 slides on the sliding track 6, the rotation of the fixing post 16 drives the data transferring device 5 to change its orientation, and the data transferring device 5 is rotated from the direction of the first side 7 to the direction of the second side 8 or from the direction of the second side 8 to the direction of the first side 7 by the rotation of the fixing post 16.

Alternatively, as shown in fig. 2, the fixing post 16 may include a bracket 17 and a data transferring device fixing post 18, that is, when the second base includes a rotating device, one end of the bracket 17 is rotatably connected to the rotating device of the second base 15, the other end of the bracket 17 is fixedly connected to the data transferring device fixing post 18, the bracket 17 rotates on the rotating device, and the bracket 17 rotates to drive the data transferring device 5 to rotate from the direction toward the first side 7 to the direction toward the second side 8, or from the direction toward the second side 8 to the direction toward the first side 7.

It should be understood that when the supporting structure 4 receives a data transmission instruction, the second base 15 in the supporting structure 4 slides on the sliding track 6, and drives the data transferring device 5 to the first side surface 7 to be in butt joint with the internet host interface through the first opening 9, so as to automatically guide the data in the internet host 200 into the data transferring device 5, after the data is stored, the supporting structure 4 returns to the center of the sliding track 6, the rotating device on the second base 15 drives the bracket 17 to rotate, when the bracket 17 rotates, the data transferring device 5 is driven to rotate towards the second side surface 8, and then the supporting structure 4 continues to slide on the sliding track 6 to drive the data transferring device 5 to the outer second side surface 8 to be in butt joint with the input interface 12 of the data encryption device through the second opening 10, so as to encrypt the data stored in the internet host 200 in the data encryption device 11.

Fig. 3 shows, as a possible embodiment, a schematic block diagram of the input interface 12 of the internet host interface and data encryption apparatus provided by the present invention; fig. 4 is a schematic diagram illustrating another example of a cross-network data transmission box structure provided by the present invention. As shown in fig. 3, when the internet host interface includes a first interface 19 and a second interface 20, it can be seen from fig. 4 that the slide rail 6 adjacent to the first side 7 includes a first slide rail 21 and a second slide rail 22; when the second base 15 slides on the first sliding rail 21 to the first side 7, the data unloading device 5 faces the first interface 19; when the second base 15 slides onto the first side 7 on the second sliding rail 22, the data unloading device 5 faces the second interface 20.

Similarly, as shown in fig. 3, when the input interface 12 of the data encryption device includes the third interface 23 and the fourth interface 24, as can be seen from fig. 4, the sliding track 6 near the second side 8 includes the third sliding track 25 and the fourth sliding track 26, and when the second base 15 slides at the third sliding track 25 to the second side 8, the data unloading device 5 faces the third interface 23; when the second base 15 slides to the second side 8 at the fourth sliding track 26, the data unloading device 5 faces the fourth interface 24.

It should be understood that the corresponding first sliding track 21 and second sliding track 22 on the sliding track 6, and the first sliding track 21 and second sliding track 22 are spaced apart, so as to enable the data unloading device 5 to move to the first interface 19 and second interface 20 of the internet host interface as shown in fig. 3. The corresponding third sliding track 25 and fourth sliding track 26 on the sliding track 6, and the third sliding track 25 and fourth sliding track 26 are spaced apart, in order to make the data unloading device 5 move to the third interface 23 and fourth interface 24 in the input interface 12 of the data encryption device as shown in fig. 3.

As a possible implementation manner, as shown in fig. 3 and 4, as shown in fig. 4, an infrared optoelectronic device 27 is disposed on the data unloading device fixing column 18, the infrared optoelectronic device 27 is located above the data unloading device 5, and the infrared optoelectronic device 27 is configured to obtain interface information of the internet host shown in fig. 3, and/or input interface 12 information of the data encryption device, where the interface information includes: at least one of the location information of the input interface 12 of the data encryption device and the information whether the interface is abnormal; the cross-network data transmission box 100 controls the movement track of the data unloading device 5 on the sliding track 6 by using the interface information of the internet host and/or the information of the input interface 12 of the data encryption device.

It should be understood that the infrared optoelectronic device 27 is used to photograph the input interface 12 of the internet host or the data encryption device, process the photographed picture, and fuse the information obtained by the two methods by using the gray level of the picture and the binary pixel point information obtained by converting the pixel points of the picture, so as to jointly determine the interface condition, thereby determining the position of the data transmission device 5 to be docked on the internet host 200 or the data encryption device 11. The infrared optoelectronic device 27 is further configured to identify whether an abnormal condition exists in the first interface 19, the second interface 20 of the internet host interface or the third interface 23 or the fourth interface 24 of the input interface 12 of the data encryption apparatus, such as whether an interface is jammed. When one interface has abnormal conditions, the sliding path can be selected to drive into the other interface without blockage.

Fig. 5 shows a bottom movement diagram of the cross-network data transmission box 100, as shown in fig. 5, the bottom movement diagram is a movement track of the support body 4, and as can be seen from fig. 3, from the beginning of receiving a data transmission command, the support body 4 starts to slide from the origin 28, and can be connected to the first interface 19 of the internet host interface through the first slide rail 21, or can be connected to the second interface 20 of the internet host interface through the second slide rail 22, and after the data is acquired from the internet host 200, the support body 4 slides to the origin 28, and can be connected to the third interface 23 of the input interface 12 of the data encryption device through the third slide rail 25, or can be connected to the fourth interface 24 through the fourth slide rail 26, so as to transmit the data in the internet host 200 to the data encryption device 11 for encryption. The specific path to which the slide is to be performed is set according to specific situations, and the embodiment of the present invention is not limited.

As a further preferred scheme, the data encryption device 11 may also be disposed inside the cross-network data transmission box 100, and the data transmission mode is the same as the transmission mode when disposed outside the cross-network data transmission box 100, which is not described herein again.

Preferably, the height of the data unloading device 5, the first opening 9 and the second opening 10 is the same. This arrangement facilitates the data unloading device 5 to access the internet host interface through the first opening 9, or facilitates the data unloading device 5 to access the input interface 12 of the data encryption device through the second opening 10.

As a further preferred scheme, the data unloading device 5 may be at least one of a usb disk, an optical disk and a mobile hard disk.

It should be understood that the above description is only for the purpose of facilitating a better understanding of the embodiments of the present invention by those skilled in the art, and is not intended to limit the scope of the embodiments of the present invention. Various equivalent modifications or changes, or combinations of any two or more of the above, may be apparent to those skilled in the art in light of the above examples given. Such modifications, variations, or combinations are also within the scope of the embodiments of the utility model.

It should also be understood that the foregoing descriptions of the embodiments of the present invention focus on highlighting differences between the various embodiments, and that the same or similar parts that are not mentioned may be referred to one another, and thus, for brevity, will not be described again.

It should also be understood that the manner, case, category and division of the embodiments of the present invention are only for convenience of description and should not be construed as a particular limitation, and features in various manners, cases and embodiments may be combined without contradiction.

It is also to be understood that the terminology and/or the description of the various embodiments are consistent and mutually exclusive, and that features of different embodiments may be combined to form new embodiments according to their inherent logical relationships, unless otherwise specified or logically conflicting, in various embodiments of the present invention.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of changes or substitutions within the technical scope of the present invention, and all such changes or substitutions are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. An inter-network data transmission box, comprising: the data transmission device comprises a shell and a data transmission device arranged inside the shell;

the data transmission apparatus includes: the device comprises a first base, a supporting structure and a data unloading device fixed on the supporting structure, wherein a sliding track is arranged on the first base, and the first base is connected with the supporting structure in a sliding manner through the sliding track;

the sliding rail is connected with a first side surface and a second side surface of the shell, the first side surface is provided with a first opening, and the second side surface is provided with a second opening;

the supporting structure is used for sliding on the sliding track to drive the data unloading device to move to the first opening, so that the data unloading device is connected with an interface of an internet host to acquire data, or the supporting structure drives the data unloading device to move to the second opening, so that the data unloading device is connected with an input interface of the data encryption device to enable the data encryption device to encrypt data, and an output interface of the data encryption device is connected with the intranet host to unload data.

2. The cross-network data transmission box of claim 1, wherein the support structure comprises: the data unloading device comprises a second base and a fixed column which is rotationally connected to the second base, the data unloading device is fixed on the fixed column, and the second base slides on the sliding track;

through the rotation of the fixed column, the data transfer device is enabled to rotate from the direction of the first side surface to the direction of the second side surface, or from the direction of the second side surface to the direction of the first side surface.

3. The cross-network data transmission box of claim 2, wherein the internet host interface comprises: a first interface and a second interface comprising, proximate to a sliding track on the first side: a first sliding track and a second sliding track, when the second base slides to the first side face on the first sliding track, the data unloading device faces the first interface;

when the second base slides to the first side surface on the second sliding rail, the data unloading device faces the second interface.

4. The cross-network data transmission box of claim 3, wherein the input interface of the data encryption device comprises: a third interface and a fourth interface comprising, proximate to a sliding track on the second side: a third sliding track and a fourth sliding track, when the second base slides to the second side surface at the third sliding track, the data unloading device faces the third interface;

when the second base slides to the second side surface at the fourth sliding track, the data unloading device faces the fourth interface.

5. The cross-network data transmission box of claim 2, wherein an infrared photoelectric device is arranged on the fixed column, and the infrared photoelectric device is positioned above the data unloading device;

the infrared photoelectric equipment is used for acquiring interface information of the internet host and/or interface information of the data encryption device, and the interface information comprises: at least one of position information and abnormal information of the internet host interface and/or the data encryption device interface;

and the cross-network data transmission box controls the motion track of the data unloading device on the sliding track by using interface information of an internet host and/or interface information of a data encryption device.

6. The cross-network data transmission box of any one of claims 1 to 5, wherein the data unloading device, the first opening and the second opening are the same height.

7. The cross-network data transmission box of claim 1, wherein the data unloading device comprises: at least one of a U disk, an optical disk and a mobile hard disk.

8. The cross-network data transmission box of claim 1, wherein the cross-network data transmission box comprises the data encryption device.

9. The cross-network data transmission box of any one of claims 1 to 5, wherein the first side and the second side are two opposing sides.

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