阅读说明：本技术 一种具备全地形适应能力的组网探测装置 (Networking detection device with all-terrain adaptability ) 是由 杨景 唐良勇 王生水 韩明华 于 2021-02-04 设计创作，主要内容包括：本发明公开了一种具备全地形适应能力的组网探测装置,包括底座、多个探测单元和多个伸缩单元,所述底座内设有信号处理单元,各所述探测单元均与所述信号处理单元通讯相连；各所述探测单元与各伸缩单元一一对应,各所述伸缩单元的一端与所述探测单元相连,另一端旋转安装于所述底座上,以在底座位于的平面内旋转；所述底座上设有角度刻度线,用于获取伸缩单元的旋转角度；所述伸缩单元上设有长度刻度线,用于获取所述伸缩单元的伸缩长度。本发明具有结构简单、操作简便、拆装简便、探测精度高、效率高、全地形适应能力等优点。(The invention discloses a networking detection device with all-terrain adaptability, which comprises a base, a plurality of detection units and a plurality of telescopic units, wherein a signal processing unit is arranged in the base, and each detection unit is in communication connection with the signal processing unit; each detection unit corresponds to each telescopic unit one by one, one end of each telescopic unit is connected with the detection unit, and the other end of each telescopic unit is rotatably arranged on the base so as to rotate in the plane where the base is located; the base is provided with angle scale lines for acquiring the rotation angle of the telescopic unit; and the telescopic unit is provided with length scale marks for acquiring the telescopic length of the telescopic unit. The invention has the advantages of simple structure, simple and convenient operation, simple and convenient disassembly and assembly, high detection precision, high efficiency, full-terrain adaptability and the like.)

1. A networking detection device with all-terrain adaptability is characterized by comprising a base (1), a plurality of detection units (2) and a plurality of telescopic units (3), wherein a signal processing unit (8) is arranged in the base (1), and each detection unit (2) is in communication connection with the signal processing unit (8); each detection unit (2) corresponds to each telescopic unit (3) one by one, one end of each telescopic unit (3) is connected with the detection unit (2), and the other end of each telescopic unit (3) is rotatably arranged on the base (1) to rotate in a plane where the base (1) is located; the base (1) is provided with angle scale marks for acquiring the rotation angle of the telescopic unit (3); the telescopic unit (3) is provided with length scale marks for acquiring the telescopic length of the telescopic unit (3).

2. The networking detection device with all-terrain adaptability according to claim 1, characterized in that each telescopic unit (3) comprises a horizontal telescopic rod (301) and a vertical telescopic rod (302), one end of the horizontal telescopic rod (301) is connected with the base (1), the other end of the horizontal telescopic rod is connected with one end of the vertical telescopic rod (302), the other end of the vertical telescopic rod (302) is connected with the detection unit (2), and the horizontal telescopic rod (301) and the vertical telescopic rod (302) are vertically arranged.

3. The networking detection device with all-terrain adaptability according to claim 2, characterized in that the other end of the vertical telescopic rod (302) is connected with the detection unit (2) through a universal joint (6).

4. The networking detection device with all-terrain adaptability according to claim 2, characterized in that the length scales are located on the horizontal telescopic rods (301) and the vertical telescopic rods (302).

5. The networking detection device with all-terrain adaptability according to any one of claims 1-4, characterized in that the other end of the telescopic unit (3) is rotatably mounted on the base (1) through an angle adjuster (5).

6. The networking detection device with all-terrain adaptability according to any one of claims 2-4, characterized in that the signal processing unit (8) is connected with each detection unit (2) through a lead wire, and the lead wires are arranged inside the horizontal telescopic rod (301) and the vertical telescopic rod (302).

7. The networking detection device with all-terrain adaptability according to any one of claims 1-4, characterized in that a level (4) is further arranged on the base (1).

8. The networking detection device with all-terrain adaptability according to any one of claims 1-4, characterized by further comprising an upper computer (7), wherein the upper computer (7) is connected with the signal processing unit (8).

Technical Field

The invention mainly relates to the technical field of life detection, in particular to a networking detection device with all-terrain adaptability.

Background

The life detection equipment is mainly used for detecting, searching and quickly positioning survivors covered in ruins under the conditions of landslide, earthquake collapse, building collapse, mine explosion and the like, and is suitable for mechanisms of fire fighting, municipal administration, mine rescue and the like. In a rescue site, the geographic environment is complex, a large amount of reinforced cement, building debris, soil and the like can exist, namely the terrain of the site is uneven, and the arrangement of life detection equipment is difficult.

Most of the existing life detectors work in a single device, the coverage range of the life detectors is limited, the detection and positioning capabilities are weak, and the response capabilities are weak for the requirement of multi-target accurate positioning in a large-range quick search scene. The requirements can be met through distributed layout and networking joint search of multiple devices/sensors. However, when multiple devices are networked together, the mutual position relationship between the devices/sensors in the network needs to be determined, and the respective data of the devices/sensors in the network needs to be interacted and communicated, so that the purpose of networking can be achieved. However, the topographic and geological environment of the disaster site is complex, the mutual position between the devices/sensors is difficult to measure accurately, or the measurement takes a lot of time, and the efficiency is low.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the problems in the prior art, the invention provides the networking detection device with the all-terrain adaptability, which is simple in structure, simple and convenient to operate and high in detection precision.

In order to solve the technical problems, the technical scheme provided by the invention is as follows:

a networking detection device with all-terrain adaptability comprises a base, a plurality of detection units and a plurality of telescopic units, wherein a signal processing unit is arranged in the base, and each detection unit is in communication connection with the signal processing unit; each detection unit corresponds to each telescopic unit one by one, one end of each telescopic unit is connected with the detection unit, and the other end of each telescopic unit is rotatably arranged on the base so as to rotate in the plane where the base is located; the base is provided with angle scale lines for acquiring the rotation angle of the telescopic unit; and the telescopic unit is provided with length scale marks for acquiring the telescopic length of the telescopic unit.

As a further improvement of the above technical solution:

each telescopic unit comprises a horizontal telescopic rod and a vertical telescopic rod, one end of the horizontal telescopic rod is connected with the base, the other end of the horizontal telescopic rod is connected with one end of the vertical telescopic rod, the other end of the vertical telescopic rod is connected with the detection unit, and the horizontal telescopic rod and the vertical telescopic rod are vertically arranged.

The other end of the vertical telescopic rod is connected with the detection unit through a universal joint.

The length scale marks are positioned on the horizontal telescopic rod and the vertical telescopic rod.

The other end of the telescopic unit is rotatably installed on the base through an angle adjuster.

The signal processing unit is connected with each detection unit through a lead, and the leads are arranged inside the horizontal telescopic rod and the vertical telescopic rod.

And the base is also provided with a level gauge.

The device also comprises an upper computer, and the upper computer is connected with the signal processing unit.

Compared with the prior art, the invention has the advantages that:

according to the networking detection device, each detection unit can rotate in the horizontal plane of the base, and the distance between the detection unit and the base can be adjusted through the telescopic unit, so that the networking detection device is suitable for different terrains; in addition, the corresponding angle scale marks and length scale marks are matched, so that the distance and the angle of each detection unit relative to the base can be conveniently acquired, namely the relative coordinate of each detection unit relative to the base is obtained, and the target can be accurately detected finally.

According to the invention, the position of the detection unit on the horizontal plane is adjusted by changing the telescopic length of the horizontal telescopic rod, and the height difference between the detection unit and the horizontal plane is adjusted by changing the length of the vertical telescopic rod, so that the position adjustment between the detection units is finally realized, and the device is convenient to be applied to disaster sites with uneven terrains. In addition, the arrangement of the universal joint can adjust the horizontal azimuth angle and the pitch angle, wherein the pitch angle can be adjusted to adapt to rugged environmental structures such as ruins. Through the adjustment cooperation between the telescopic unit and the universal joint, the azimuth angle of the signal transmitted by the detection unit can be accurately adjusted, and 360-degree all-dimensional measurement is completed. The telescopic unit and the universal joint are simple in overall structure and convenient to adjust.

The invention can horizontally rotate, horizontally stretch, vertically stretch and adjust the pitching angle by matching the angle regulator, the telescopic unit and the universal joint, has strong maneuverability and has strong adaptability to uneven positions of ruins, mountainous regions and the like. Meanwhile, the structure forms a cylindrical coordinate system with the center of the chassis as an original point, and is matched with the angle scale marks and the telescopic length scale marks, so that the relative coordinates of each detection unit can be quickly and accurately acquired, and communication interconnection in the network is realized.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic view of the detection unit of the present invention connected to an angle adjuster through a telescopic unit.

FIG. 3 is a schematic diagram of the telescopic, extended and rotated states of the present invention.

Fig. 4 is a schematic diagram of the telescopic unit and the universal joint of the present invention in different states of the embodiment.

Fig. 5 is a block diagram of an embodiment of the present invention.

FIG. 6 is a schematic view of the angle scale marks on the base of the present invention.

The reference numbers in the figures denote: 1. a base; 2. a detection unit; 3. a telescopic unit; 301. a horizontal telescopic rod; 302. a vertical telescopic rod; 4. a level gauge; 5. an angle adjuster; 6. a universal joint; 7. an upper computer; 8. a signal processing unit.

Detailed Description

The invention is further described below with reference to the figures and the specific embodiments of the description.

As shown in fig. 1, the networking detection device with all-terrain adaptability of the present embodiment includes a base 1, a plurality of detection units 2 and a plurality of telescopic units 3, wherein a signal processing unit 8 is disposed in the base 1, and each detection unit 2 is connected to the signal processing unit 8 in a communication manner; each detection unit 2 corresponds to each telescopic unit 3 one by one, one end of each telescopic unit 3 is connected with the detection unit 2, the other end of each telescopic unit 3 is rotatably arranged on the base 1 through a horizontal azimuth angle regulator 5 (conventional structure), and the detection unit 2 rotates 360 degrees around the base 1 through the angle regulator 5; the base 1 is provided with angle scale marks (such as the angle scale marks on the peripheral side of the circular base 1 in fig. 6), which facilitates accurate adjustment of the rotation angle of each detection unit 2 on the telescopic unit 3 (such as adjustment of the angle between two detection units 2), and also facilitates accurate acquisition of the rotation angle of each telescopic unit 3; in addition, the telescopic unit 3 is provided with length scale marks (as shown in fig. 2) for acquiring the telescopic length of the telescopic unit 3. According to the networking detection device, each detection unit 2 can rotate in the horizontal plane where the base 1 is located, and the distance between the detection unit 2 and the base 1 can be adjusted through the telescopic unit 3, so that the networking detection device is suitable for different terrains; in addition, the corresponding angle scale marks and length scale marks are matched, so that the distance and the angle of each detection unit 2 relative to the base 1 can be conveniently acquired, namely the relative coordinate of each detection unit 2 relative to the base 1 is obtained, and finally, the follow-up accurate detection of the target is realized.

As shown in fig. 2, in this embodiment, each telescopic unit 3 includes a horizontal telescopic rod 301 and a vertical telescopic rod 302, one end of the horizontal telescopic rod 301 is connected to the base 1 through an angle adjuster 5, the other end of the horizontal telescopic rod is connected to one end of the vertical telescopic rod 302, the other end of the vertical telescopic rod 302 is connected to the detection unit 2 through a universal joint 6, and the horizontal telescopic rod 301 and the vertical telescopic rod 302 are vertically arranged. Through the flexible length that changes horizontal telescopic rod 301 to adjustment detection unit 2 is in the position of horizontal plane, and through the length that changes vertical telescopic rod 302, the difference in height at perpendicular horizontal plane direction between adjustment detection unit 2 and the base 1 finally realizes the position control between each detection unit 2, is convenient for be applicable to the rugged disaster site of topography. In addition, the arrangement of the universal joint 6 can adjust the horizontal azimuth angle and the pitch angle, wherein the pitch angle can be adjusted to adapt to rugged environment structures such as ruins, and the like, and if the ground on which the detection unit 2 is placed is uneven, the universal joint 6 is adjusted to change the placement angle of the detection unit 2, so that the problem that the detection unit 2 cannot be fixed due to the fact that the ground is not horizontal is solved. As shown in fig. 4, the azimuth angle of the signal transmitted by the detection unit 2 can be precisely adjusted by adjusting and matching the telescopic unit 3 and the universal joint 6, thereby completing 360-degree omnibearing measurement. The telescopic unit 3 and the universal joint 6 are simple in overall structure and convenient to adjust.

Further, as shown in fig. 2, length scale marks are arranged on the horizontal telescopic rod 301 and the vertical telescopic rod 302, so that the telescopic length of each telescopic rod can be conveniently obtained, and the accurate position of each detection unit 2 can be obtained.

The telescopic unit 3, the base 1 and the detection unit 2 can be detached (for example, in a sleeve form, the telescopic unit is locked through a locking screw, and the locking screw is screwed out to be drawn out so as to realize detachment); then, the horizontal telescopic rod 301 is adjusted to be in an unfolded state, and then the angle adjuster 5 is adjusted to rotate the detecting units 2 on the telescopic units 3 to adjust the included angles between the detecting units 2, wherein the specific adjusting process is shown in fig. 3 and 4.

In this embodiment, a level 4 (conventional structure) is further disposed on the base 1 for detecting a level state of the base 1. When measuring, adjust base 1 at the horizontality through spirit level 4, be favorable to the turned angle of each detecting element 2 of accurate regulation, improve subsequent detection accuracy.

In this embodiment, the detection unit 2 is a detection device or a sensor. If the detecting unit 2 is a detecting device, it should contain a complete signal processing system, and can independently complete the life detection work. Each detection unit 2 and the signal processing unit 8 on the base 1 adopt wired two-way communication, each detection unit 2 processes the acquired data and then transmits the processed data to the signal processing unit 8, and the signal processing unit 8 fuses the data of each detection unit 2, thereby realizing accurate detection. If the detection unit 2 is a sensor, the acquired data is not processed by each sensor and then transmitted to the signal processing unit 8, and the signal processing unit 8 performs fusion processing after preprocessing the data, so that accurate detection of the target is realized.

The signal processing unit 8 is connected to each detecting unit 2 through a wire (e.g., a data transmission line) disposed inside the horizontal telescopic rod 301 and the vertical telescopic rod 302 for communication between each detecting unit 2 and the signal processing unit 8 in the base 1. Through wired connection, the communication between the signal processing unit 8 and the detection unit 2 is not interfered by surrounding electromagnetic interference, and the communication quality is improved.

In addition, the system also comprises an upper computer 7, wherein the upper computer 7 is connected with the signal processing unit 8 in a wireless (such as WiFi signals) or wired mode, so that communication between the upper computer 7 and the signal processing unit 8 is realized, and the communication is shown in figure 5.

The invention can horizontally rotate, horizontally stretch, vertically stretch and adjust the pitching angle by matching the angle regulator 5, the telescopic unit 3 and the universal joint 6, has strong maneuverability and has strong adaptability to uneven positions of ruins, mountainous regions and the like. Meanwhile, the structure forms a cylindrical coordinate system with the center of the chassis as an original point, and is matched with the angle scale marks and the telescopic length scale marks, so that the relative coordinates of each detection unit 2 can be rapidly and accurately acquired, and communication interconnection in the network is realized.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may be made by those skilled in the art without departing from the principle of the invention.