CN210835252U - Individual soldier portable equipment - Google Patents

Abstract

The utility model relates to the field of communication technology, specifically, relate to an individual soldier portable equipment. The individual portable equipment comprises a host, a detecting and receiving antenna, a Beidou/GPS antenna, a power supply and a telescopic tripod; the detecting and receiving antenna is arranged on one side of the host through a release screw and is in signal connection with the host; the Beidou/GPS antenna is arranged on the top of the host through a release screw and is in signal connection with the host; the main machine is detachably arranged at the top of the telescopic tripod and is used for receiving and processing signals acquired by the detecting and receiving antenna and the Beidou/GPS antenna; the power supply is detachably hung at the bottom of the host and is electrically connected with the host, the detecting and receiving antenna and the Beidou/GPS antenna. The portable equipment for individual soldiers has the characteristics of small volume, light weight, high loading and unloading speed and good environmental adaptability.

Description

Individual soldier portable equipment

Technical Field

The application relates to the technical field of communication, in particular to individual soldier portable equipment.

Background

The man-machine integration of individual soldier systems in modern war is higher and higher, and the individual soldier carries equipment is more and more complicated, for example: and system equipment such as sensors, communication, navigation and night vision. Along with the rapid improvement of the technical and combat functional requirements of individual equipment, the individual equipment is increasingly miniaturized on the basis of the requirements on the weight and the volume of the equipment, and meanwhile, the loading and unloading speed is required to be improved, and the adaptability of the equipment to various complex environments is improved.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides an individual soldier's portable equipment, has characteristics small, light in weight, loading and unloading are fast and environmental suitability is good.

The embodiment of the application provides individual portable equipment, which comprises a host, a detection and reception antenna, a Beidou/GPS (Global positioning System) antenna, a power supply and a telescopic tripod, wherein the host is connected with the detection and reception antenna through the power supply;

the detecting and receiving antenna is arranged on one side of the host through a release screw and is in signal connection with the host;

the Beidou/GPS antenna is arranged on the top of the host through a release screw and is in signal connection with the host;

the host is detachably arranged at the top of the telescopic tripod and is used for receiving and processing signals acquired by the detecting and receiving antenna and the Beidou/GPS antenna;

the power supply is detachably hung at the bottom of the host and is electrically connected with the host, the detecting and receiving antenna and the Beidou/GPS antenna.

Preferably, the host comprises a box body with a cavity, a cover body connected to the box body in a sealing manner, and a plurality of functional modules;

the plurality of functional modules comprise a first functional module and a second functional module which are arranged in the cavity and a third functional module which is arranged outside the box body, and the first functional module is connected with the third functional module in a cross-linking way.

Preferably, the first functional module is connected to the third functional module through a rectangular connector mounted to the case.

Preferably, the Beidou/GPS antenna and the interception antenna are in signal connection with the first functional module;

the first functional module is in signal connection with the second functional module;

the first functional module is a signal processing module, the second functional module is a signal storage module, and the third functional module is a signal transmitting module.

Preferably, a shielding waterproof sealing ring is mounted on a sealing surface between the box body and the cover body.

Preferably, a first transition plate and a second transition plate are arranged between the main frame and the telescopic tripod; the first transition plate and the second transition plate are fixedly connected together through a fastener;

the first transition plate is fixed to the telescopic tripod through a release screw;

the second transition plate is fixed to the main machine through loose screws.

Preferably, the thickness of the second transition plate is greater than that of the first transition plate, and the diameter of the second transition plate is smaller than that of the first transition plate.

Preferably, the main machine is provided with a man-machine operation interface on the bottom of the other side surface adjacent to the side surface provided with the detecting and receiving antenna and on one side surface of the power supply.

Preferably, the host, the detecting and receiving antenna, the Beidou/GPS antenna, the power supply and the inner and outer surfaces of the telescopic tripod are coated with three-proofing paint.

Preferably, a ground peg for securing said telescoping tripod to the ground is also included.

Preferably, the main machine is provided with a handle.

Adopt the individual soldier portable equipment that provides in this application embodiment, have following beneficial effect:

the single-soldier portable equipment integrates the host, the detecting and receiving antenna, the Beidou/GPS antenna, the power supply and the telescopic tripod into an integral structure, the detecting and receiving antenna is arranged on one side of the host, the Beidou/GPS antenna is arranged on the top of the host, and the size and the weight of the integral structure are reduced through reasonable arrangement of all parts; the detecting and receiving antenna and the Beidou/GPS antenna are arranged on the host machine through the non-detachable screws, the host machine is detachably arranged on the telescopic tripod, so that all the parts can be quickly assembled and disassembled, and the assembled and disassembled parts are small in size and convenient to carry in the carrying process; and the inner surface and the outer surface of each part are coated with three-proofing paint, and the parts can have the characteristics of mould prevention, salt mist prevention and moisture prevention through the three-proofing paint, so that the environmental adaptability and the application range of the individual portable equipment are improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a schematic structural diagram of an individual portable device provided in an embodiment of the present application;

FIG. 2 is a schematic view of the A-direction structure of the individual portable device provided in FIG. 1;

fig. 3 is a schematic diagram of a split structure of a host portion of the individual portable device provided in fig. 1.

Reference numerals:

1-a host; 2-a detecting antenna; 3-a Beidou/GPS antenna; 4-a power supply; 5-a telescopic tripod; 6-a first transition plate; 7-a second transition plate; 8-a human-machine interface; 9-a handle; 11-a box body; 12-a cover body; 13-a first functional module; 14-a second functional module; 15-a third functional module; 16-rectangular connector.

Detailed Description

In order to make the technical solutions and advantages of the embodiments of the present application more apparent, the following further detailed description of the exemplary embodiments of the present application with reference to the accompanying drawings makes it clear that the described embodiments are only a part of the embodiments of the present application, and are not exhaustive of all embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

The embodiment of the application provides a single-soldier portable device, as shown in a structure of fig. 1, the single-soldier portable device comprises a host 1, a detecting and receiving antenna 2, a Beidou/GPS antenna 3, a power supply 4 and a telescopic tripod 5;

the detecting and receiving antenna 2 is arranged on one side of the host 1 through a loose screw (not shown in the figure) and is in signal connection with the host 1; the detecting and receiving antenna 2 is used for receiving radar signals and sending the received signals to the host 1 so as to process, store or transmit the signals; as shown in fig. 1 and fig. 3, the detecting antenna 2 is fixedly installed at one side of the host 1, and for facilitating the assembly and disassembly of the detecting antenna 2 and the host 1, the detecting antenna 2 is installed at the host 1 by a plurality of loose screws (not shown in the figure);

the Beidou/GPS antenna 3 is arranged on the top of the host 1 through a loose screw and is in signal connection with the host 1; as shown in the structures of fig. 1 and 3, a big dipper antenna or a GPS antenna is installed at the top of the host 1, or both the big dipper antenna and the GPS antenna can be installed at the top of the host 1, and both the big dipper antenna or the GPS antenna can perform global positioning on the position where the big dipper antenna or the GPS antenna is located through signal interaction with a positioning satellite, so that real-time positioning can be performed;

the main machine 1 is detachably arranged at the top of the telescopic tripod 5 and is used for receiving and processing signals acquired by the detecting and receiving antenna 2 and the Beidou/GPS antenna 3; as shown in the structures of fig. 1 and 2, the main frame 1 is mounted at the top of the telescopic tripod 5, and by telescopic adjustment of the telescopic tripod 5, not only can the height of the main frame 1 be adjusted, but also the telescopic tripod 5 can be contracted in the carrying and transporting processes, so that the telescopic tripod 5 is in the minimum size and is convenient to carry; in the dismounting process, the telescopic tripod 5 in the contraction state can be folded towards the direction of the main machine 1, so that the telescopic tripod 5 and the main machine 1 are folded together, and the situation that the whole individual portable equipment is inconvenient to carry due to the fact that the telescopic tripod 5 can only be positioned at the bottom of the main machine 1 and the length of the whole individual portable equipment is large is prevented;

the power 4 detachably hoists in the bottom of host computer 1 to be connected with host computer 1, listen and receive antenna 2 and big dipper/GPS antenna 3 electricity. As shown in the structures of fig. 1 and fig. 2, a power supply 4 for supplying electric energy to the main machine 1, the detecting and receiving antenna 2 and the Beidou/GPS antenna 3 is hung at the bottom of the main machine 1; the power 4 can be any power 4 that can provide electric energy such as battery, power generation facility, and in the region that possesses the commercial power, can also provide the electric energy to host computer 1, detection and receipt antenna 2 and big dipper GPS antenna 3 through the electric wire connection commercial power.

The single-soldier portable equipment integrates the host 1, the detecting and receiving antenna 2, the Beidou/GPS antenna 3, the power supply 4 and the telescopic tripod 5 into a whole structure, the detecting and receiving antenna 2 is arranged on one side of the host 1, the Beidou/GPS antenna 3 is arranged on the top of the host 1, the telescopic tripod 5 can be telescopic and foldable, and the size and the weight of the whole structure can be reduced through reasonable arrangement of all parts; simultaneously, reconnoiter antenna 2 and big dipper GPS antenna 3 do not take off the screw installation in host computer 1 through the pine, and host computer 1 detachably installs in scalable tripod 5 for can install and remove fast between each part, the pine after the dismantlement does not take off the screw and remains on one of them spare part, not only saves the dismouting time, but also can prevent that the pine from taking off the screw and losing, the part after the dismouting is small, portable in handling.

Therefore, the individual portable equipment has the characteristics of small volume, light weight and high loading and unloading speed.

In a specific embodiment, as shown in the structure of fig. 3, the host 1 includes a box 11 having a cavity, a cover 12 hermetically connected to the box 11, and a plurality of functional modules; the plurality of functional modules comprise a first functional module 13 and a second functional module 14 which are arranged in the cavity, and a third functional module 15 which is arranged outside the box body 11, wherein the first functional module 13 is connected with the third functional module 15 in a cross-linking way. The Beidou/GPS antenna 3 and the interception antenna 2 are in signal connection with the first functional module 13; the first functional module 13 is in signal connection with the second functional module 14; the first functional module 13 may be a signal processing module such as a controller, a single chip, a microprocessor, etc., the second functional module 14 may be a signal storage module, and the third functional module 15 may be a signal transmitting module; a shielding waterproof sealing ring is arranged on a sealing surface between the box body 11 and the cover body 12; the first functional module 13 is connected to the third functional module 15 by a rectangular connector 16 attached to the case 11.

The host 1 of the individual soldier portable equipment comprises a box body 11 and a cover body 12 which are connected in a sealing manner, a first functional module 13 and a second functional module 14 which are arranged in the box body 11 can be protected, meanwhile, a shielding waterproof sealing ring which is arranged between the box body 11 and the cover body 12 can be used for sealing and isolating the outside of the box body 11 and a cavity in the box body 11, the situation that the first functional module 13 and the second functional module 14 cannot work normally due to water entering the box body 11 can be prevented, meanwhile, interference signals can be shielded, and the situation that the first functional module 13 and the second functional module 14 cannot work normally due to electromagnetic interference is prevented; through adopting box body 11 and lid 12 of sealing connection and installing and being used for the sealed waterproof sealing washer of shielding between box body 11 and lid 12, can guarantee the normal work of first functional module 13 and second functional module 14, reduce the appearance of trouble, be favorable to improving the reliability and the stability of individual soldier's portable equipment.

As shown in the structures of fig. 1 and 2, a first transition plate 6 and a second transition plate 7 are arranged between the main frame 1 and the telescopic tripod 5; the first transition plate 6 and the second transition plate 7 are fixedly connected together through fasteners, and the fasteners can be connecting pieces such as screws, rivets, bolts, nuts and the like; the first transition plate 6 is fixed on the telescopic tripod 5 through a release screw; the second transition plate 7 is fixed to the main body 1 by loose screws. The telescopic tripod 5 and the first transition plate 6 can be connected through a hinge joint or a pivot, so that the relative rotation adjustment between the telescopic tripod 5 and the first transition plate 6 is facilitated.

Because scalable tripod 5 does not take off the fix with screw through the pine and crosses cab apron 6 first, and host computer 1 does not take off the fix with screw through the pine and crosses cab apron 7 in the second, consequently, at the in-process of dismouting, only need make the pine take off the screw and throw off with one of them spare part and can realize dismantling, also only need during the installation take off the screw with the pine and fasten between the spare part of dismantlement and can realize the installation, can realize scalable tripod 5 and first cross between cab apron 6, and host computer 1 and second cross the quick assembly disassembly between cab apron 7, the folding of scalable tripod 5 and host computer 1 after the dismouting of being convenient for.

In a similar way, in the dismounting process, the loosening-free screw can be kept on one of the parts, so that the dismounting time is saved, the loosening-free screw can be prevented from being lost, and the time waste caused by searching the loosening-free screw is reduced.

As shown in the structure of fig. 1 and 2, the thickness of the second transition plate 7 is greater than that of the first transition plate 6, and the diameter of the second transition plate 7 is smaller than that of the first transition plate 6.

In order to realize the connection between the telescopic tripod 5 and the main machine 1, a first transition plate 6 and a second transition plate 7 are arranged between the telescopic tripod 5 and the main machine 1, because the area of the first transition plate 6 is large, in order to prevent the first transition plate 6 and the telescopic tripod 5 from influencing the installation and the signal reception of the detecting antenna 2, the second transition plate 7 is also arranged between the first transition plate 6 and the main machine 1, the surface area of the second transition plate 7 is obviously smaller than that of the first transition plate 6, and meanwhile, the detecting antenna 2 is separated from the first transition plate 6 by arranging the second transition plate 7 with large thickness, and a large gap is formed between the detecting antenna 2 and the first transition plate 6.

In order to operate the main unit 1 conveniently, the main unit 1 is provided with a human-machine operation interface 8 on the bottom of the other side surface adjacent to the side surface provided with the detecting and receiving antenna 2 and on one side surface of the power supply. As shown in fig. 1 and fig. 2, the main unit 1 has the detecting antenna 2 installed on one side surface, and the other side surface adjacent to the side surface where the detecting antenna 2 is installed is provided with the human-computer operation interface 8, and meanwhile, the one side surface of the power supply 4 is also provided with the human-computer operation interface 8, and the human-computer operation interface 8 can be respectively used for controlling the main unit 1 and the power supply 4, and can also be used for simultaneously controlling the main unit 1 and the power supply 4, thereby facilitating human-computer interaction.

Because the host 1 and the power supply are both provided with the human-computer operation interface 8, an operator can conveniently operate and control the host 1, the human-computer operation interface 8 is provided with control buttons and interfaces, the control buttons can be switch buttons, selection buttons, operation buttons and the like, and the interfaces can be various functional interfaces such as a communication interface, a data interface, a power supply 4 interface and the like. Meanwhile, the man-machine operation interface 8 is arranged in the lower area of the side face of the host 1, so that the working area of the detecting and receiving antenna 2 is skillfully avoided, the radiation to workers is avoided, the man-machine operation interface is matched with the height of a human body, the operation is convenient, and good man-machine engineering design is realized.

In order to enable the individual portable equipment to meet the three-proofing requirement, the inner surface and the outer surface of the host 1, the monitoring antenna 2, the Beidou/GPS antenna 3, the power supply 4 and the telescopic tripod 5 are coated with three-proofing paint, and the three-proofing paint can be acrylic resin three-proofing paint, polyurethane three-proofing paint, organic silicon three-proofing paint, fluorescent three-proofing paint and other various paint species with three-proofing functions.

Because the three-proofing paint is coated on the inner surface and the outer surface of each part, the three-proofing paint has good high and low temperature resistance, a layer of transparent protective film is formed after curing, and the three-proofing paint has excellent insulation, moisture resistance, electric leakage resistance, shock resistance, dust resistance, corrosion resistance, aging resistance, corona resistance and other properties, so that each part can have at least the three-proofing properties of mould resistance, salt mist resistance and moisture resistance through the three-proofing paint coated on the inner surface and the outer surface of each part, the individual portable equipment can stably work in various environments, and the environmental adaptability and the application range of the individual portable equipment are improved.

In order to improve the stability and reliability of the individual portable device during use, the individual portable device may further comprise ground pegs for fixing the telescopic tripod 5 to the ground. One or more ground nails may be provided at the bottom of each leg of the telescopic tripod 5, and the legs may be firmly fixed to the ground by the ground nails, so that the main body 1 may be stably supported at the top of the telescopic tripod 5, thereby avoiding the risk of the main body 1 being skewed or falling due to the loose fixation of the telescopic tripod 5. The telescopic tripod 5 is fixed on the ground through the ground nails, and the stress of the telescopic tripod 5 in each direction is ensured to be uniform according to calculation, so that the wind resistance design is effectively met.

Meanwhile, in order to further facilitate the disassembly, assembly, taking and placing of the main machine 1, the main machine 1 can be further provided with a handle 9. The handle 9 is arranged on the main machine 1, and the telescopic tripod 5 can be folded upwards and folded with the main machine 1, so that the carrying, packaging and transportation are convenient.

The length, width and height of the external dimension of the individual portable equipment adopting the structure are respectively 265mm × 120mm × 460mm when the individual portable equipment does not contain the telescopic tripod 5, and 483mm × 265mm × 960mm when the individual portable equipment contains the telescopic tripod 5.

While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (9)

1. An individual soldier portable device is characterized by comprising a host, a detecting and receiving antenna, a Beidou/GPS antenna, a power supply and a telescopic tripod;

the detecting and receiving antenna is arranged on one side of the host through a release screw and is in signal connection with the host;

the Beidou/GPS antenna is arranged on the top of the host through a release screw and is in signal connection with the host;

the host is detachably arranged at the top of the telescopic tripod and is used for receiving and processing signals acquired by the detecting and receiving antenna and the Beidou/GPS antenna;

the power supply is detachably hung at the bottom of the host and is electrically connected with the host, the detecting and receiving antenna and the Beidou/GPS antenna;

the host comprises a box body with a cavity, a cover body connected to the box body in a sealing mode and a plurality of functional modules;

the plurality of functional modules comprise a first functional module and a second functional module which are arranged in the cavity, and a third functional module which is arranged outside the box body;

the first functional module is connected with the third functional module in a crosslinking way.

2. The individual soldier portable device as recited in claim 1 wherein the first functional module is connected to the third functional module by a rectangular connector mounted to the case.

3. The individual soldier portable device of claim 2 wherein the Beidou/GPS antenna and the intercept antenna are in signal connection with the first functional module;

the first functional module is in signal connection with the second functional module;

the first functional module is a signal processing module, the second functional module is a signal storage module, and the third functional module is a signal transmitting module.

4. The individual soldier portable device of claim 1, wherein a waterproof, shielding seal is mounted on a sealing surface between the case and the cover.

5. The individual soldier portable device as recited in claim 1, wherein a first transition plate and a second transition plate are mounted between the host and the telescoping tripod; the first transition plate and the second transition plate are fixedly connected together through a fastener;

the first transition plate is fixed to the telescopic tripod through a release screw;

the second transition plate is fixed to the main machine through loose screws.

6. The individual soldier portable device as recited in claim 5, wherein the second transition plate has a thickness greater than a thickness of the first transition plate and a diameter less than a diameter of the first transition plate.

7. The individual soldier portable equipment of claim 1, wherein the host is provided with a man-machine interface on the bottom of the other side surface adjacent to the side surface on which the intercepting antenna is installed and on one side surface of the power supply.

8. The individual soldier portable device as in any one of claims 1 to 7, wherein the host, the surveillance antenna, the Beidou/GPS antenna, the power source and the inner and outer surfaces of the telescoping tripod are painted with a tri-proof paint.

9. The individual soldier portable device as recited in claim 8, further comprising ground pegs for securing the telescoping tripod to the ground;

the main machine is provided with a handle.

Images