CN210638686U - Crime scene three-dimensional modeling vehicle - Google Patents

Crime scene three-dimensional modeling vehicle Download PDF

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Publication number
CN210638686U
CN210638686U CN201920942203.0U CN201920942203U CN210638686U CN 210638686 U CN210638686 U CN 210638686U CN 201920942203 U CN201920942203 U CN 201920942203U CN 210638686 U CN210638686 U CN 210638686U
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vehicle
modeling
dimensional
crime scene
modeling vehicle
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Expired - Fee Related
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CN201920942203.0U
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Chinese (zh)
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卜芃
徐安冬
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Hunan Police Academy
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Hunan Police Academy
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Abstract

A crime scene three-dimensional modeling vehicle comprises a modeling vehicle body, a rotating structure, a three-dimensional scanner, a vehicle-mounted computer and a master control device; the modeling vehicle body comprises a trolley frame body, two wheels, a gyroscope, a wheel motor, a power supply module and a walking guide module, wherein the two wheels, the gyroscope, the wheel motor, the power supply module and the walking guide module are directly or indirectly arranged on the trolley frame body; the rotating structure is directly or indirectly arranged on the modeling vehicle body and is connected with the three-dimensional scanner; the main control equipment is arranged outside the modeling vehicle body and is connected with the vehicle-mounted computer and the three-dimensional scanner on the modeling vehicle body, and the main control equipment controls the modeling vehicle through the vehicle-mounted computer and carries out three-dimensional modeling on information collected by the three-dimensional scanner. The utility model discloses carry out three-dimensional modeling to the crime scene, realized the digital save of crime scene information, do benefit to the analysis, observation and the measurement of crime scene, alleviateed reconnaissance personnel's work load, improved the accuracy of reconnaissance record, do not destroy the scene and taken precautions against the on-the-spot unsafe factor again.

Description

Crime scene three-dimensional modeling vehicle
Technical Field
The utility model belongs to the technical field of criminal science, concretely relates to three-dimensional modeling car of crime scene.
Background
The crime scene is a place where criminal suspects crimes, is a source of objective crime information, whether scene investigation work is fine or not plays a role in lifting cases, not only the crime scene is changed inevitably along with the lapse of time, but also reconnaissance is to destroy the scene originality while reconnaissance personnel carry out scene investigation activities, how to minimize the damage is worth further research, but undeniably, in the traditional scene investigation mode, personnel enter and exit the scene, and the level and experience of the reconnaissance personnel influence the recording and the storage of scene information.
Since most crime scenes are not suitable for long-term preservation, the reconnaissance personnel are required to record and reproduce the scenes by various means. In the conventional crime scene reappearance, public security personnel mostly adopt a method of shooting and taking pictures to store scene information. When some complex sites are stored, the position relation among objects and the details of local features and the like of a certain object need to be extracted, and at present, technologies such as camera shooting, picture taking, drawing and the like are very commonly used in the field reappearance of criminal investigation and case solving. Only one technique of photography includes azimuth photography, overview photography, accent photography and detail photography; the shooting method includes a one-way shooting method, a phase shooting method, a multi-way shooting method, a rotation continuous shooting method, a straight line continuous shooting method, a measurement shooting method, and the like. However, in any photographing method, the photograph can only image the object in the three-dimensional space on the flat photosensitive film, which fundamentally determines that the spatial position relationship between the objects cannot be intuitively expressed in the photographing. Especially when using overview photography, the link between the evidences is weak and not intuitive. In order to make the scene reappear more accurately, the surveyor often needs to add complicated text explanation cases on the basis of photos, and because the surveyor has limited text expression capability, some ambiguity is likely to be caused.
The casualty accidents in the field investigation process of the traditional field investigation frequently occur, and the teaching and training are frequent, so that the safety protection of field investigation personnel becomes the research field with weak and lagging field protection.
At present, the domestic three-dimensional scanning technology is widely applied, and the three-dimensional scanning technology is used in the product design of various industries, including the airplane manufacturing industry, the aerospace industry, the automobile industry, the mould manufacturing industry, the casting industry, the toy manufacturing industry, the shoe manufacturing industry and the like; in particular, in the fields of automobiles, airplanes, toys, and the like, not all products can be designed by CAD, and particularly, products with non-standard curved surfaces often adopt "intuitive design" (reverse design) in some cases, and designers directly make manual models with plaster, and the like, or need to process samples of artworks, and the models and samples generally have complex curved surface characteristics. The three-dimensional scanner is adopted to scan the samples and the models to obtain the three-dimensional size data, and the three-dimensional size data is directly interfaced with various CAD/CAM software to complete modeling, modification, optimization and rapid manufacturing. Meanwhile, the three-dimensional laser scanner adopts a non-contact technology, so that good measurement can be realized on fragile and volatile objects, and the optimal design of products is facilitated.
Patent document CN201720045752 discloses a portable crime scene reconstruction scanner and a crime scene three-dimensional reconstruction system, which includes: the system comprises a handheld scanner and a background processing terminal. The handheld scanner comprises a mainboard, a display module, a depth sensor, a wireless transmission module, a power supply module and the like, wherein the display module, the depth sensor and the wireless transmission module are connected through the embedded mainboard, and the power supply module supplies power to the depth sensor and the mainboard; the background processing terminal comprises a mainboard, a display module, a processor module, a wireless transmission module and the like, wherein the display module, the processor module and the wireless transmission module are connected through the mainboard. The handheld scanner acquires crime scene data through the depth sensor and sends the crime scene data to the background processing terminal through the wireless transmission module for scene reconstruction in real time; and the background processing terminal transmits the result obtained by modeling to the handheld scanner in real time for displaying. The utility model discloses a can realize crime scene 3D model's quick reconstruction, improve crime scene investigation efficiency. However, the position of the handheld scanner is unstable during working, the precision is low, the model error is large, and the modeling effect is poor; and because of the uncertain factor of the crime scene brings the risk to the scene investigation personnel, and there is the possibility that the business turn over of the crime scene personnel gives destruction.
Patent document CN201420660358 discloses a mobile three-dimensional laser modeling acquisition device, which comprises a laser ranging device with a planar 360-degree scanning range, a positioning device and a mobile device, wherein the laser ranging device and the positioning device are installed on the mobile device, and scanning measurement in a plane is performed in a moving process, so that modeling data acquisition of the whole space area is realized. The device can not be remotely controlled, and is easy to topple or collide to cause equipment damage.
Disclosure of Invention
The utility model aims to provide a three-dimensional modeling vehicle for a crime scene, which aims to solve the problem that the handheld scanner provided in the background technology is unstable in position during working and is easy to influence the effect of background treatment; the problems that the on-site inspection personnel are brought with risks due to uncertain factors of the crime scene, and the possibility of damage caused by the entrance and exit of personnel at the crime scene exists.
In order to achieve the purpose, the utility model provides a crime scene three-dimensional modeling vehicle, which comprises a modeling vehicle body, a rotating structure, a three-dimensional scanner, a vehicle-mounted computer and a master control device;
the modeling vehicle body comprises a trolley frame body, two wheels, a gyroscope, a wheel motor, a power supply module and a walking guide module, wherein the two wheels, the gyroscope, the wheel motor, the power supply module and the walking guide module are directly or indirectly arranged on the trolley frame body; the gyroscope, the two wheels and the trolley frame body form a chassis supporting structure of the balance trolley;
the rotating structure is directly or indirectly arranged on the modeling car body and connected with the three-dimensional scanner and used for controlling the three-dimensional scanner to rotate, and the rotating structure comprises a mechanical arm or a steering engine holder;
the general control equipment is arranged outside the modeling vehicle body, the general control equipment is directly or indirectly connected with a vehicle-mounted computer and a three-dimensional scanner on the modeling vehicle body in a wired or wireless mode, the general control equipment controls the modeling vehicle through the vehicle-mounted computer and carries out three-dimensional modeling on information acquired by the three-dimensional scanner, the vehicle-mounted computer controls the rotation of a rotating structure, the vehicle-mounted computer controls a wheel motor through the direct or indirect mode to further control the rotation of wheels, the vehicle-mounted computer is also connected with a camera and/or an automatic obstacle avoidance module to control the operation of the wheels, and an interface monitored by the camera in real time is used for being displayed in the general control equipment in real time; the power supply module is at least used for supplying power to the wheel motor.
Furthermore, the modeling vehicle further comprises a transmission lead, and the master control device is directly or indirectly connected with the vehicle-mounted computer and the three-dimensional scanner on the modeling vehicle body through the transmission lead.
Furthermore, the modeling vehicle further comprises a data transmission module arranged on the modeling vehicle body, the master control device is directly or indirectly in network communication connection with a vehicle-mounted computer and a three-dimensional scanner on the modeling vehicle body in a wireless connection mode, and the data transmission module comprises a wireless network card.
Further, the vehicle-mounted computer is a raspberry-type microcomputer, the power supply module comprises a lithium battery and a voltage divider, the trolley frame body comprises a trolley chassis, the automatic obstacle avoidance module is an ultrasonic transmitting and receiving device, the main control equipment is a computer, and the computer is provided with automatic modeling software and software for controlling the vehicle-mounted computer.
Furthermore, the rotating structure is connected to the modeling car body through a vertical rod, the vertical rod is a lifting push rod, the power supply module supplies power to the lifting push rod, and the vehicle-mounted computer controls the lifting of the lifting push rod.
Further, the modeling vehicle further comprises a lighting device, the lighting device is connected with the rotating structure, and the rotating structure controls the rotation of the lighting device.
Furthermore, the modeling vehicle further comprises a motor driving chip, the wheel motor is connected with the motor driving chip, and the vehicle-mounted computer controls the operation of the motor driving chip so as to control the rotation direction and the rotation speed of the wheel.
Further, the motor driving chip is L298N, and the power supply module is also used for supplying power to the rotating structure and the vehicle-mounted computer.
Furthermore, the wheels are arranged on the periphery of the trolley frame body, and a suspension system for ensuring smooth running of the modeling vehicle is further arranged between the trolley frame body and the wheels.
Furthermore, an acceleration sensor connected with a vehicle-mounted computer is further arranged on the trolley frame body.
Compared with the prior art, the utility model discloses following beneficial effect has:
the utility model discloses can be fast and stable carry out three-dimensional modeling to the crime scene, neither destroy the scene and taken precautions against the injury that the on-the-spot investigation personnel brought from the unsafe factor of crime scene to a certain extent again. The digital storage of the information of the articles in the crime scene is realized, the real-time analysis, the remote analysis, the observation and the measurement of the crime scene are facilitated, the workload of scene reconnaissance personnel is reduced, the scene reconnaissance time is shortened, and the accuracy of scene reconnaissance records is improved.
The utility model discloses can measure the distance between arbitrary two points in the model, provide convenience for the investigation. The characteristic that the rotating structure can rotate in all directions is utilized, and modeling can be smoothly carried out on the part of corners where the trolley cannot enter.
After the model building vehicle is used for storing and reconstructing a scene, a commander can repeatedly patrol in a computer, analyze which part possibly has potential trace material evidence, determine the scene where a specially-assigned person enters and make a special scheme, avoid the situation where a plurality of persons enter and repeatedly enter, thereby reducing the probability of damaging the potential trace material on the scene, improving the exploration efficiency, having the function of storing original crime scene information for a long time, providing a reconnaissance staff to comprehensively and accurately know the first-hand information and providing a reliable information source for analyzing case situations.
Aiming at a dangerous room or an environment with toxic gas, on-site inspectors do not need to be involved in a dangerous situation any more, and first-hand crime scene information can be acquired only through a wireless network.
Compared with a two-dimensional picture, the multi-angle three-dimensional panoramic picture can play a great auxiliary role in solving a case by the investigation personnel, is also very beneficial to testification and prosecution in a court, and can enable a judge to clearly know the condition of a crime scene.
The three-dimensional modeling vehicle adopts a chassis of the balance vehicle, and can prevent the three-dimensional modeling vehicle from toppling over. The camera real-time monitoring facilitates the long-distance judgment of key information by the experimenter under the condition of not being in danger, so that the environment around the trolley can be known immediately, and key investigation can be conveniently carried out.
Possess automatic obstacle avoidance module and make the instrument on the dolly can not lead to impaired because of the collision.
Preferably, the three-dimensional modeling vehicle further comprises a suspension system, the suspension system is adopted to absorb shock of the vehicle, all wheels are kept attached to the ground, all instruments on the vehicle are not easily damaged by shock when passing through a hollow road, the passing performance of a complex terrain is improved, and the vehicle is prevented from being out of control.
Preferably, the three-dimensional modeling vehicle adopts an acceleration sensor which can be used for measuring the contact condition of the wheel and the ground, and the wheel is stopped by adjusting the output power of the wheel motor once the wheel slips.
In addition to the above-described objects, features and advantages, the present invention has other objects, features and advantages. The present invention will be described in further detail with reference to the drawings.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:
fig. 1 is a schematic structural diagram of an embodiment of the present invention;
wherein, 1, modeling a vehicle body; 2. erecting a rod; 3. a rotating structure; 4. a three-dimensional scanner; 5. a lighting device; 6. a master control device; 7. a trolley frame body; 8. a wheel; 9. a wheel motor; 10. a motor driving chip; 11. a power supply module; 12. a vehicle-mounted computer; 13. a camera; 14. an automatic obstacle avoidance module; 15. a data transmission module; 16. a transmission conductor.
Detailed Description
The embodiments of the invention will be described in detail hereinafter with reference to the accompanying drawings, but the invention can be implemented in many different ways, which are defined and covered by the claims.
Example 1
The utility model provides a crime scene three-dimensional modeling vehicle, the modeling vehicle comprises a modeling vehicle body 1, a rotating structure 3, a three-dimensional scanner 4, a vehicle-mounted computer 12 and a master control device 6;
the modeling vehicle body 1 comprises a trolley frame body 7, two wheels 8, a gyroscope, a wheel motor 9, a power supply module 11 and a walking guide module, wherein the two wheels 8, the gyroscope, the wheel motor 9 and the power supply module 11 are directly or indirectly arranged on the trolley frame body 7, and the walking guide module guides the modeling vehicle to walk and comprises a camera 13 and/or an automatic obstacle avoidance module 14; the gyroscope is connected with the vehicle-mounted computer 12, and the gyroscope, the two wheels 8 and the trolley frame body 7 form a chassis supporting structure of the balance trolley;
the rotating structure 3 is directly or indirectly arranged on the modeling car body 1 and connected with the three-dimensional scanner 4 and used for controlling the three-dimensional scanner 4 to rotate, and the rotating structure 3 comprises a mechanical arm or a steering engine cradle head;
the general control equipment 6 is arranged outside the modeling vehicle body 1, the general control equipment 6 is directly or indirectly connected with the vehicle-mounted computer 12 and the three-dimensional scanner 4 on the modeling vehicle body 1 in a wired or wireless mode, the general control equipment 6 controls the modeling vehicle through the vehicle-mounted computer 12 and carries out three-dimensional modeling on information acquired by the three-dimensional scanner 4, the vehicle-mounted computer 12 controls the rotation of the rotating structure 3, the vehicle-mounted computer 12 controls the wheel motor in a direct or indirect mode so as to control the rotation of wheels, the vehicle-mounted computer 12 is also connected with the camera 13 and/or the automatic obstacle avoidance module 14 so as to control the operation of the wheels, and an interface monitored by the camera 13 in real time is used for instant display in the general control equipment 6; the power supply module 11 is at least used for supplying power to the wheel motor 9.
The utility model discloses can be fast and stable carry out three-dimensional modeling to the crime scene, neither destroy the scene and taken precautions against the injury that the on-the-spot investigation personnel brought from the unsafe factor of crime scene to a certain extent again. The digital storage of the information of the articles in the crime scene is realized, the real-time analysis, the remote analysis, the observation and the measurement of the crime scene are facilitated, the workload of scene reconnaissance personnel is reduced, the scene reconnaissance time is shortened, and the accuracy of scene reconnaissance records is improved. The utility model discloses can measure the distance between arbitrary two points in the model, provide convenience for the investigation. The characteristic that the rotating structure can rotate in all directions is utilized, and modeling can be smoothly carried out on the part of corners where the trolley cannot enter.
After the model building vehicle is used for storing and reconstructing a scene, a commander can repeatedly patrol in a computer, analyze which part possibly has potential trace material evidence, determine the scene where a specially-assigned person enters and make a special scheme, avoid the situation where a plurality of persons enter and repeatedly enter, thereby reducing the probability of damaging the potential trace material on the scene, improving the exploration efficiency, having the function of storing original crime scene information for a long time, providing a reconnaissance staff to comprehensively and accurately know the first-hand information and providing a reliable information source for analyzing case situations. The camera real-time monitoring facilitates the long-distance judgment of key information by the experimenter under the condition of not being in danger, so that the environment around the trolley can be known immediately, and key investigation can be conveniently carried out.
Further, the modeling vehicle further comprises a transmission lead 16, and the main control device 6 is directly or indirectly connected with the onboard computer 12 and the three-dimensional scanner 4 on the modeling vehicle body 1 through the transmission lead 16.
Further, the modeling vehicle further comprises a data transmission module 15 arranged on the modeling vehicle body 1, the master control device 6 is directly or indirectly in network communication connection with the onboard computer 12 and the three-dimensional scanner 4 on the modeling vehicle body 1 in a wireless connection mode, and the data transmission module 15 comprises a wireless network card.
Further, the vehicle-mounted computer 12 is a raspberry microcomputer, the power supply module 11 includes a lithium battery and a voltage divider, the trolley frame body 7 includes a trolley chassis, the automatic obstacle avoidance module 14 is an ultrasonic transceiver, the automatic obstacle avoidance module 14 can enable the three-dimensional modeling trolley to automatically stop when the three-dimensional modeling trolley encounters an obstacle, and the automatic obstacle avoidance module 14 is provided to enable instruments on the trolley not to be damaged due to collision.
The total control equipment 6 is a computer, and the computer is provided with automatic modeling software and software for controlling the vehicle-mounted computer 12.
Furthermore, the rotating structure 3 is connected to the modeling car body 1 through the upright rod 2, the upright rod 2 is a lifting push rod, the power supply module 11 supplies power to the lifting push rod, and the vehicle-mounted computer 12 controls the lifting of the lifting push rod.
Further, the modeling vehicle further comprises a lighting device 5, wherein the lighting device 5 is connected with the rotating structure 3, and the rotating structure 3 controls the rotation of the lighting device 5.
Further, the modeling vehicle further comprises a motor driving chip 10, the wheel motor 9 is connected with the motor driving chip 10, and the onboard computer 12 controls the operation of the motor driving chip 10 so as to control the rotation direction and the rotation speed of the wheel 8.
Further, the motor driving chip 10 is L298N, and the power supply module 11 is further configured to supply power to the rotating structure 3 and the onboard computer 12.
Further, the wheels 8 are arranged on the periphery of the trolley frame body 7, and a suspension system for guaranteeing smooth running of the modeling vehicle is further arranged between the trolley frame body 7 and the wheels 8. Adopt suspension system to carry out the shock attenuation to the dolly for each instrument on the dolly is difficult to be damaged by vibrations when passing through hollow road, has improved the trafficability characteristic of complicated topography, prevents out of control.
Further, an acceleration sensor connected with the onboard computer 12 is further arranged on the trolley frame body 7. The acceleration sensor can be used for measuring the contact condition of the wheel and the ground, and the wheel is stopped by adjusting the output power of the wheel motor once the wheel slips.
Aiming at a dangerous room or an environment with toxic gas, on-site inspectors do not need to be involved in a dangerous situation any more, and first-hand crime scene information can be acquired only through a wireless network. Compared with a two-dimensional picture, the multi-angle three-dimensional panoramic picture can play a great auxiliary role in solving a case by the investigation personnel, is also very beneficial to testification and prosecution in a court, and can enable a judge to clearly know the condition of a crime scene.
The lifting push rod, the mechanical arm, the steering engine cradle head, the three-dimensional scanner 4, the lighting device 5, the master control device 6, the wheel motor 9, the motor driving chip 10, the power supply module 11, the vehicle-mounted computer 12, the camera 13, the automatic obstacle avoidance module 14, the transmission lead 16, the data transmission module 15, the gyroscope, the suspension system and the acceleration sensor can be obtained by commercial purchase.
The work flow of the modeling vehicle is as follows: vehicle assembly → field pre-scanning → entering indoor field → indoor profile scanning → expansion and contraction, rotating detailed filling scanning → data synchronous transmission modeling → exiting field → model post-processing.
The first step is as follows: and (6) assembling the whole vehicle. According to the situation of the site terrain, wheels 8 of different types are matched according to the local conditions. Fix pole setting 2 and rotating-structure 3, remain stable not rock. The lighting device 5 is switched on according to the needs of the scene. The three-dimensional scanner 4 is fixed on the rotating structure 3, and the three-dimensional scanner 4 is directly or indirectly connected with the master control equipment 6 in a communication way.
The second step is that: pre-scanning in the field. And testing whether the vehicle body, the upright rod 2, the rotating structure 3 and the lighting device 5 can normally operate or not at the periphery of the site. An attempt is made to pre-scan surrounding objects with the three-dimensional scanner 4 to see whether the modeling conditions are normal.
The third step: and entering an indoor site. Planning the path entering the indoor site and scanning the path. The effects of no damage, no omission and full coverage are achieved as much as possible. And (5) entering the modeling vehicle into the field according to the original route.
The fourth step: indoor profile scanning. The integral situation of the site is preliminarily scanned according to an original route, and the relation between the indoor integral framework and the articles can be preliminarily reflected.
The fifth step: lifting and rotating fine filling scanning. The scanning posture is controlled by the upright rod 2 and the rotating structure 3 to realize all-dimensional and full-coverage scanning. The key parts are independently scanned by adopting the methods of lighting and angle adjustment of the lighting device 5.
And a sixth step: and modeling data synchronous transmission. The data scanning system is connected to the total control equipment 6 through a transmission lead 16 or the vehicle-mounted computer 12 and the data transmission module 15, and scanned data are transmitted to the total control equipment 6 for synchronous modeling.
The seventh step: and (5) exiting the site. After the scanning is finished, the modeling vehicle is withdrawn from the site according to the original route
Eighth step: and (5) post-processing the model. And the three-dimensional field map is post-processed by software such as MeshLab and 3DMax, so that the picture effect is enhanced. And then, the information marking is carried out on the three-dimensional field picture, so that the field can be more intuitively represented, and the relation between the articles can be highlighted.
The foregoing is a more detailed description of the invention, taken in conjunction with the specific preferred embodiments, and it is not intended that the invention be limited to the specific embodiments shown and described. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions and replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (10)

1. A three-dimensional modeling vehicle for a crime scene is characterized by comprising a modeling vehicle body (1), a rotating structure (3), a three-dimensional scanner (4), a vehicle-mounted computer (12) and a master control device (6);
the modeling vehicle body (1) comprises a trolley frame body (7), two wheels (8), a gyroscope, a wheel motor (9), a power supply module (11) and a walking guide module, wherein the two wheels (8), the gyroscope, the wheel motor (9), the power supply module and the walking guide module are directly or indirectly arranged on the trolley frame body (7), and the walking guide module comprises a camera (13) and/or an automatic obstacle avoidance module (14); the gyroscope is connected with a vehicle-mounted computer (12), and the gyroscope, the two wheels (8) and the trolley frame body (7) form a chassis supporting structure of the balance trolley;
the rotating structure (3) is directly or indirectly arranged on the modeling car body (1), is connected with the three-dimensional scanner (4) and is used for controlling the three-dimensional scanner (4) to rotate, and the rotating structure (3) comprises a mechanical arm or a steering engine cradle head;
the general control equipment (6) is arranged outside the modeling vehicle body (1), the general control equipment (6) is directly or indirectly connected with a vehicle-mounted computer (12) and a three-dimensional scanner (4) on the modeling vehicle body (1) in a wired or wireless mode, the general control equipment (6) controls the modeling vehicle through the vehicle-mounted computer (12) and carries out three-dimensional modeling on information acquired by the three-dimensional scanner (4), the vehicle-mounted computer (12) controls the rotation of the rotating structure (3), the vehicle-mounted computer (12) controls a wheel motor through a direct or indirect mode so as to control the rotation of wheels, the vehicle-mounted computer (12) is also connected with a camera (13) and/or an automatic obstacle avoidance module (14) so as to control the operation of the vehicle-mounted computer, and a real-time monitoring interface of the camera (13) is used for instant display in the general control equipment (6); the power supply module (11) is at least used for supplying power to the wheel motor (9).
2. The crime scene three-dimensional modeling vehicle as claimed in claim 1, characterized in that, the modeling vehicle further comprises a transmission wire (16), and the master control device (6) is directly or indirectly connected with the onboard computer (12) and the three-dimensional scanner (4) on the modeling vehicle body (1) through the transmission wire (16).
3. The crime scene three-dimensional modeling vehicle as claimed in claim 1, further comprising a data transmission module (15) arranged on the modeling vehicle body (1), wherein the master control device (6) is in network communication connection with the onboard computer (12) and the three-dimensional scanner (4) on the modeling vehicle body (1) directly or indirectly in a wireless connection mode, and the data transmission module (15) comprises a wireless network card.
4. The crime scene three-dimensional modeling vehicle as claimed in claim 1, wherein the onboard computer (12) is a raspberry-type microcomputer, the power supply module (11) comprises a lithium battery and a voltage divider, the trolley frame body (7) comprises a trolley chassis, the automatic obstacle avoidance module (14) is an ultrasonic wave transmitter-receiver, the general control device (6) is a computer, and the computer is provided with automatic modeling software and software for controlling the onboard computer (12).
5. The crime scene three-dimensional modeling vehicle as claimed in claim 1, wherein the rotating structure (3) is connected to the modeling vehicle body (1) through an upright rod (2), the upright rod (2) is a lifting push rod, power is supplied to the lifting push rod through a power supply module (11), and the lifting of the lifting push rod is controlled by an onboard computer (12).
6. Crime scene three-dimensional modeling vehicle according to claim 1, characterized in that, the modeling vehicle further comprises a lighting device (5), the lighting device (5) is connected with the rotating structure (3), and the rotation of the lighting device (5) is controlled by the rotating structure (3).
7. The crime scene three-dimensional modeling vehicle as claimed in claim 1, characterized in that, the modeling vehicle further comprises a motor driving chip (10), the wheel motor (9) is connected with the motor driving chip (10), and the onboard computer (12) controls the operation of the motor driving chip (10) so as to control the rotation direction and the rotation speed of the wheel (8).
8. The crime scene three-dimensional modeling vehicle of claim 7, characterized in that, the motor driving chip (10) is L298N, and the power supply module (11) is also used for supplying power to the rotating structure (3) and the onboard computer (12).
9. The crime scene three-dimensional modeling vehicle as claimed in claim 1, wherein said wheels (8) are arranged around the trolley frame body (7), and a suspension system for ensuring smooth running of the modeling vehicle is further arranged between the trolley frame body (7) and the wheels (8).
10. The crime scene three-dimensional modeling vehicle as claimed in claim 1, wherein an acceleration sensor connected with an onboard computer (12) is further arranged on the vehicle frame body (7).
CN201920942203.0U 2019-06-21 2019-06-21 Crime scene three-dimensional modeling vehicle Expired - Fee Related CN210638686U (en)

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Application Number Priority Date Filing Date Title
CN201920942203.0U CN210638686U (en) 2019-06-21 2019-06-21 Crime scene three-dimensional modeling vehicle

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Application Number Priority Date Filing Date Title
CN201920942203.0U CN210638686U (en) 2019-06-21 2019-06-21 Crime scene three-dimensional modeling vehicle

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Publication Number Publication Date
CN210638686U true CN210638686U (en) 2020-05-29

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113091636A (en) * 2021-03-08 2021-07-09 华朗三维技术(深圳)有限公司 Handheld three-dimensional scanner control system with gyroscope

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113091636A (en) * 2021-03-08 2021-07-09 华朗三维技术(深圳)有限公司 Handheld three-dimensional scanner control system with gyroscope

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