CN216580354U - General type radar vehicle communication data acquisition machine case - Google Patents

Abstract

The utility model provides a general communication data acquisition case for a radar vehicle, which comprises a case unit and a data acquisition unit, wherein the data acquisition unit can be arranged in the case unit; the case unit comprises a case module, a protection module movably arranged on the case module, and a lifting module arranged in the case body; the chassis module comprises a chassis body and slideways arranged on the side walls of the front end and the rear end of the chassis body; the protection module comprises a telescopic protection cover which can be movably arranged on the slideway, and a motor assembly which can provide kinetic energy for the telescopic protection cover; the lifting type data acquisition module is reasonable in overall structural design, the lifting module can be used for lifting the data acquisition module when the lifting type data acquisition module is used and falling the data acquisition module when the lifting type data acquisition module is not used, and the protection cover is formed by combining the case body and the protection module when the data acquisition module is not used, so that the service life of the data acquisition module is indirectly prolonged.

Description

General type radar vehicle communication data acquisition machine case

Technical Field

The utility model relates to the technical field of vehicle-mounted radar preparation, in particular to a general type radar vehicle communication data acquisition case.

Background

Radar, meaning "radio detection and ranging", is the method of finding objects and determining their spatial position by radio. Therefore, radar is also referred to as "radiolocation". Radars are electronic devices that detect objects using electromagnetic waves. The radar emits electromagnetic waves to irradiate a target and receives the echo of the target, so that information such as the distance from the target to an electromagnetic wave emission point, the distance change rate (radial speed), the azimuth and the altitude is obtained.

With the development of social economy, radars have been widely used in the fields of weather forecasting, resource detection, environmental monitoring, and the like. Radar vehicles, as their name implies, are the product of combining radar with vehicles having high mobility. The radar vehicle has good application potential in flood monitoring, sea ice monitoring, soil humidity investigation, forest resource clearing, geological investigation and other aspects.

Therefore, the vehicle-mounted radar structure easy to install is more suitable for the development trend of the existing civil radar vehicle. However, in the prior art, the communication data acquisition equipment of the vehicle-mounted radar is often erected on the top of the automobile, and the actual service life of the vehicle-mounted radar is short because effective protection measures are not carried out on the communication data acquisition equipment.

SUMMERY OF THE UTILITY MODEL

Aiming at the existing problems, the utility model provides a general communication data acquisition case for a radar vehicle, which has better protection performance.

The technical scheme of the utility model is as follows: a general communication data acquisition case for a radar vehicle comprises a case unit and a data acquisition unit which can be arranged in the case unit; the case unit comprises a case module, a protection module movably arranged on the case module, and a lifting module arranged in the case module;

the data acquisition unit comprises an installation module capable of being installed on the lifting module and a data collection module capable of being installed on the installation module;

the chassis module comprises a chassis body and slideways arranged on the side walls of the front end and the rear end of the chassis body;

the protection module comprises a telescopic protection cover which can be movably arranged on the slideway, and a motor assembly which can provide kinetic energy for the telescopic protection cover;

the telescopic protective cover comprises two groups of protective bodies which are respectively positioned above the left side and the right side of the case body; the protection body comprises a plurality of sequentially arranged support frames and telescopic covers arranged on the plurality of support frames; the supporting frame is of a door-shaped structure, and the bottom end of the supporting frame is provided with a sliding block which can be movably arranged in the slide way; the outermost support frames at the left side and the right side of the case body are fixedly arranged on the case body; the motor assembly comprises two groups of electric push rods, one end of each electric push rod is arranged on the case body, and the other end of each electric push rod is connected with the supporting frames at the inner sides of the two groups of protection bodies respectively;

the mounting module comprises a rotating module mounted on the mounting seat and an angle adjusting module mounted on the rotating module and used for mounting the data collecting module;

the data collection module comprises a sensor module for communication data collection, a wireless connection module capable of being in wireless connection with the radar vehicle, a micro control module which is connected with the radar vehicle and used for controlling the motor assembly, the electric push rod and the electric hydraulic push rod, and a power module which is used for providing power for the motor assembly, the electric push rod and the electric hydraulic push rod.

Furthermore, the case body is provided with a mounting unit for mounting on a radar vehicle; the mounting unit can be used for being mounted on the radar vehicle more conveniently; the mounting unit may be a mounting rod, a mounting hole, a rope, or other easily mountable device, apparatus, or component.

Furthermore, the mounting unit adopts a mounting rack; the mounting frame comprises a mounting frame body and fixing bolts which are arranged on the mounting frame and used for fixing the case body; the case body is also provided with a threaded hole corresponding to the fixing bolt; the mounting frame can enable the data acquisition case to be mounted more firmly in actual use.

Furthermore, a rainproof cloth layer is arranged on the surface of the telescopic cover; the rainproof cloth layer has more advantages in rain and snow environments.

Further, a magnet sealing strip is arranged at the inner side end of the telescopic cover; the two groups of telescopic covers can be movably connected through a magnet sealing strip; in actual use, the two groups of telescopic covers can be effectively connected by using the magnet sealing strips.

Furthermore, the lifting module comprises a scissor lifting frame, a mounting seat and an electric hydraulic push rod, wherein one end of the scissor lifting frame is mounted at the bottom end in the case body, the mounting seat is mounted at the other end of the scissor lifting frame, and the electric hydraulic push rod is used for providing kinetic energy for the scissor lifting frame; the electric hydraulic push rod can be used for controlling the scissor lifting frame to enable the scissor lifting frame to deform and lift the mounting base.

Compared with the prior art, the utility model has the beneficial effects that: the lifting module is reasonable in integral structural design, on one hand, the actual horizontal height of the data collection module can be effectively increased, and the data collection capacity of the lifting module is effectively enhanced; on the other hand, the lifting module can lift the data acquisition module when in use and fall when not in use, and the data acquisition module can form a protective cover when the case body and the protective module are not in use, so that the data acquisition module avoids the problem of wind, rain and rain, and the service life of the data acquisition module is indirectly prolonged; in addition, the utility model has the advantages of simple integral structure and low cost, and is suitable for mass popularization.

Drawings

FIG. 1 is a schematic view of the external structure of embodiment 1 of the present invention;

FIG. 2 is a schematic view of the internal structure of embodiment 1 of the present invention;

FIG. 3 is an exploded view of example 2 of the present invention;

the device comprises a case module 1, a case body 11, a mounting unit 110, a slideway 12, a protection module 2, a telescopic protective cover 21, a supporting frame 211, a telescopic cover 212, a lifting module 3, a scissor lifting frame 31, a mounting seat 32, a mounting module 4, a rotating module 41, an angle adjusting module 42 and a data collecting module 5.

Detailed Description

Example 1: the general communication data acquisition case for the radar vehicle as shown in fig. 1 and 2 comprises a case unit and a data acquisition unit which can be arranged in the case unit; the case unit comprises a case module 1, a protection module 2 movably arranged on the case module 1 and a lifting module 3 arranged in the case module 1;

the data acquisition unit comprises a mounting module 4 capable of being mounted on the lifting module 3 and a data collection module 5 capable of being mounted on the mounting module 4;

the chassis module 1 comprises a chassis body 11 and slideways 12 arranged on the side walls of the front and rear ends of the chassis body 11; wherein, the chassis body 11 is provided with a mounting unit 110 for mounting on a radar car; the mounting unit 110 is specifically a mounting hole; the mounting hole can be mounted on the radar vehicle through the mounting rod;

the protection module 2 comprises a telescopic protection cover 21 which can be movably arranged on the slideway 12 and a motor component which can provide kinetic energy for the telescopic protection cover 21;

as shown in fig. 2, the retractable protective cover 21 includes two groups of protective bodies respectively located above the left and right sides of the chassis body 11; the protective body comprises a plurality of supporting frames 211 which are arranged in sequence, and telescopic covers 212 which are arranged on the plurality of supporting frames 211; the supporting frame 211 is of a structure like a Chinese character 'men' and the bottom end of the supporting frame 211 is provided with a sliding block which can be movably arranged in the slide way 12; the outermost support frames 211 at the left and right sides of the case body 11 are fixedly arranged on the case body 11; the motor assembly comprises two groups of electric push rods, one end of each electric push rod is arranged on the case body 11, and the other end of each electric push rod is connected with the supporting frames 211 at the inner sides of the two groups of protection bodies; wherein, the surface of the telescopic cover 212 is provided with a rainproof cloth layer; a magnet sealing strip is arranged at the inner side end of the telescopic cover 212; the two groups of telescopic covers 212 can be movably connected through a magnet sealing strip;

the lifting module 3 comprises a shearing fork lifting frame 31, a mounting seat 32 and an electric hydraulic push rod, wherein one end of the shearing fork lifting frame 31 is arranged at the bottom end in the case body 11, the mounting seat 32 is arranged at the other end of the shearing fork lifting frame 31, and the electric hydraulic push rod provides kinetic energy for the shearing fork lifting frame 31;

the mounting module 4 comprises a rotating module 41 mounted on the mounting seat 32, and an angle adjusting module 42 mounted on the rotating module 41 for mounting the data collecting module 5;

the data collection module 5 comprises a sensor module for collecting communication data, a wireless connection module capable of being wirelessly connected with the radar vehicle, a micro control module capable of being connected with the radar vehicle through the wireless connection module and used for controlling the motor assembly, the electric push rod and the electric hydraulic push rod, and a power supply module used for supplying power to the motor assembly, the electric push rod and the electric hydraulic push rod.

It should be noted that: the rotating module 41 of the present embodiment is a commercially available electric control rotating platform; the angle adjusting module 42 of the present embodiment adopts 4 lead screw motors, wherein the 4 lead screw motors are installed in a rectangular shape; the motor assembly, the electric push rod, the electric hydraulic push rod, the micro control module and the power supply module are all commercially available products.

Example 2: the difference from example 1 is: the mounting unit 110 employs a mounting bracket; the mounting frame comprises a mounting frame body and fixing bolts arranged on the mounting frame and used for fixing the case body 11; the chassis body 11 is further provided with a threaded hole corresponding to the fixing bolt.

Claims (5)

1. A general communication data acquisition case for a radar vehicle comprises a case unit and a data acquisition unit which can be arranged in the case unit; the machine box unit is characterized by comprising a machine box module (1), a protection module (2) movably arranged on the machine box module (1), and a lifting module (3) arranged in the machine box module (1);

the data acquisition unit comprises a mounting module (4) capable of being mounted on the lifting module (3), and a data collection module (5) capable of being mounted on the mounting module (4);

the chassis module (1) comprises a chassis body (11) and slideways (12) arranged on the side walls of the front end and the rear end of the chassis body (11);

the protection module (2) comprises a telescopic protection cover (21) which can be movably arranged on the slideway (12), and a motor assembly which can provide kinetic energy for the telescopic protection cover (21);

the telescopic protective cover (21) comprises two groups of protective bodies which are respectively positioned above the left side and the right side of the case body (11); the protection body comprises a plurality of support frames (211) which are arranged in sequence and telescopic covers (212) arranged on the plurality of support frames (211); the supporting frame (211) is of a structure shaped like a Chinese character 'men', and the bottom end of the supporting frame (211) is provided with a sliding block which can be movably arranged in the slide way (12); the outermost support frames (211) at the left side and the right side of the case body (11) are fixedly arranged on the case body (11); the motor assembly comprises two groups of electric push rods, one end of each electric push rod is arranged on the case body (11), and the other end of each electric push rod is connected with a support frame (211) at the inner side end of each protection body;

the lifting module (3) comprises a shearing fork lifting frame (31) with one end installed at the bottom end inside the case body (11), a mounting seat (32) installed at the other end of the shearing fork lifting frame (31), and an electric hydraulic push rod for providing kinetic energy for the shearing fork lifting frame (31);

the mounting module (4) comprises a rotating module (41) mounted on the mounting seat (32), and an angle adjusting module (42) mounted on the rotating module (41) and used for mounting the data collecting module (5);

the data collection module (5) comprises a sensor module for collecting communication data, a wireless connection module capable of being in wireless connection with the radar vehicle, a micro control module connected with the radar vehicle and used for controlling the motor assembly, the electric push rod and the electric hydraulic push rod, and a power module used for providing power for the motor assembly, the electric push rod and the electric hydraulic push rod.

2. The vehicle communication data acquisition case for the general radar as in claim 1, wherein the case body (11) is provided with a mounting unit (110) for mounting on a radar vehicle.

3. The vehicle communication data acquisition case for general radar according to claim 2, wherein the mounting unit (110) is a mounting frame; the mounting frame comprises a mounting frame body and fixing bolts arranged on the mounting frame and used for fixing the case body (11); and the case body (11) is also provided with a threaded hole corresponding to the fixing bolt.

4. The vehicle communication data acquisition case for the general radar as in claim 1, wherein a rainproof cloth layer is arranged on the surface of the telescopic cover (212).

5. The general radar vehicle communication data acquisition case as claimed in claim 1, wherein a magnet sealing strip is arranged at the inner end of the telescopic cover (212); the two groups of telescopic covers (212) can be movably connected through a magnet sealing strip.

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