CN108012115B - Visual portable laser device - Google Patents

Abstract

The invention relates to a visual portable laser device, which comprises a shell, a laser generation assembly, a laser output assembly, a camera device, a display screen and a controller, wherein the shell comprises a bottom wall, and opposite first and second side walls, the first side wall being provided with first and second openings communicating the interior of the housing with the external environment, the laser generation assembly, the laser output assembly, the camera device and the controller are arranged in the shell, the laser output assembly is exposed to an external environment through the first opening, the camera device is exposed to the external environment through the second opening, the display screen set up in the second lateral wall, laser generation subassembly, camera device and display screen respectively with the controller is connected, laser output subassembly with the laser generation subassembly is connected. Compared with the prior art, the visual portable laser device has great improvement in the aspect of convenience of operation.

Description

Visual portable laser device

Technical Field

The invention relates to the technical field of criminal investigation, in particular to a visual portable laser device.

Background

As early as the 70's of the world, scientists found laser to be the best light source for investigating micro criminal evidence. The laser has pure spectral characteristics and absolute ultrahigh brightness, various biological traces are clearly visible under the laser irradiation, and a large number of practices prove that various crime traces, especially various traces of human physiological substances, can be easily found under the laser irradiation. At present, a laser device for material evidence investigation mainly includes the casing and sets up at inside laser generation subassembly and the laser output subassembly of casing, when the on-the-spot evidence is got, the staff often controls laser device on one hand, use the camera to shoot the sample on the other hand, there is obvious drawback in the aspect of the convenience of operation, perhaps, when the on-the-spot evidence is got, can also cooperate through two staff, one person holds the laser head, the sample is taken to the handheld camera of another person, the process of collecting evidence is loaded down with trivial details equally, and consume great manpower resources.

Disclosure of Invention

In view of the above, the present invention provides a portable visualization laser device to solve the above problems.

The visual portable laser device comprises a shell, a laser generating assembly, a laser output assembly, a camera device, a display screen and a controller, wherein the shell comprises a bottom wall, a first side wall and a second side wall which are opposite to each other, the first side wall is provided with a first opening and a second opening which are communicated with the interior and the exterior environment of the shell, the laser generating assembly, the laser output assembly, the camera device and the controller are arranged in the shell, the laser output assembly is exposed to the exterior environment through the first opening, the camera device is exposed to the exterior environment through the second opening, the display screen is arranged on the second side wall, the laser generating assembly, the camera device and the display screen are respectively connected with the controller, and the laser output assembly is connected with the laser generating assembly.

Further, a first spool device is arranged inside the casing, the first spool device is connected with the controller and can rotate under the action of the controller, the laser generating assembly comprises a laser driving circuit and a plurality of lasers, the laser driving circuit is connected with the controller, the lasers are respectively connected with the laser driving circuit, the laser output assembly comprises a bundling component, a waveguide channel and a laser head, the bundling component is connected with the lasers, the waveguide channel is connected with the bundling component, the laser head is connected with the waveguide channel, and the waveguide channel can shrink from the external environment to enter the casing when the first spool rotates and is coiled in the first spool device or extends out of the external environment through the first opening.

Further, visual portable laser device still includes optics apart from induction system and voice prompt device, optics apart from induction system set up in laser output subassembly just is close to the laser head, voice prompt device inlays to be located the casing, optics apart from induction system and voice prompt device respectively with the controller is connected.

Further, a second reel device is arranged inside the casing, the second reel device is connected with the controller and can rotate under the action of the controller, the camera device comprises a camera host, a data transmission line and a camera, the camera is connected with the camera host through the data transmission line, and the data transmission line can be retracted from the external environment to enter the casing when the second reel rotates and is coiled in the second reel device or extends out of the external environment through the second opening.

Further, the display screen is connected with the second side wall through a hinge assembly, so that the display screen can rotate to adjust an included angle between the display screen and the second side wall.

Further, the visual portable laser device further comprises an operating rod, and the operating rod is arranged on the bottom wall and can stretch and retract relative to the bottom wall.

Further, visual portable laser device still includes base and power supply unit, the base set up in keeping away from of action bars the one end of diapire, the inside accommodation space that is provided with of base, power supply unit set up in accommodation space's inside and respectively with laser generation subassembly, laser output subassembly, camera device, display screen and controller are connected.

Further, the diapire is provided with the thermovent, visual portable laser device still includes heat abstractor, heat abstractor set up in inside the casing, with the thermovent position corresponds and with the controller is connected.

Further, the visual portable laser device further comprises a wireless communication device, and the wireless communication device is arranged inside the shell and connected with the controller.

Furthermore, the display screen is a touch display screen.

According to the visual portable laser device provided by the embodiment of the invention, the laser generating assembly, the laser output assembly and the camera device are arranged in the shell at the same time, wherein the laser output assembly is connected with the laser generating assembly, the laser output assembly is exposed to the external environment through the first opening arranged on the first side wall of the shell, and the camera device is exposed to the external environment through the second opening arranged on the first side wall of the shell.

Furthermore, the visual portable laser device provided by the embodiment of the invention is also provided with a display screen, and the pictures shot and sampled by the camera device can be displayed on the display screen in real time, so that the staff can conveniently observe and analyze the pictures in time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of a portable visualization laser device according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of another view angle of the portable visualization laser device shown in fig. 1.

Fig. 3 is a schematic structural block diagram of a portable visualization laser device according to an embodiment of the present invention.

Fig. 4 is a schematic view of another embodiment of the portable laser device shown in fig. 1.

Icon: 10-visual portable laser device; 100-a housing; 110-a bottom wall; 111-a heat sink; 120-a first sidewall; 130-a second side wall; 200-a laser generating assembly; 210-a laser driving circuit; 220-a laser; 300-a laser output assembly; 310-a bundling member; 320-a waveguide channel; 330-laser head; 400-a camera device; 410-camera host; 420-a data transmission line; 430-a camera; 500-display screen; 600-a controller; 700-a first reel device; 800-optical distance sensing means; 900-voice prompt device; 1000-a second reel device; 1100-a hinge assembly; 1110-a sleeve; 1120-a rotating shaft; 1200-a heat sink; 1300-temperature sensor; 1400-a wireless communication device; 1500-a joystick; 1600-a base; 1610-charging port.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

Referring to fig. 1, fig. 2 and fig. 3, an embodiment of the present invention provides a portable visualization laser device 10, where the portable visualization laser device 10 includes a housing 100, a laser generating assembly 200, a laser output assembly 300, a camera 400, a display screen 500 and a controller 600.

The housing 100 includes a bottom wall 110, and first and second opposing sidewalls 120 and 130, the first sidewall 120 being provided with first and second openings communicating between the interior of the housing 100 and the external environment. The laser generating assembly 200, the laser output assembly 300, the camera device 400 and the controller 600 are disposed inside the housing 100, the laser output assembly 300 is exposed to an external environment through the first opening, the camera device 400 is exposed to the external environment through the second opening, the display screen 500 is disposed on the second sidewall 130, the laser generating assembly 200, the camera device 400 and the display screen 500 are respectively connected with the controller 600, and the laser output assembly 300 is connected with the laser generating assembly 200.

The laser generating assembly 200 is configured to generate laser, the laser output assembly 300 is configured to output the laser generated by the laser generating assembly 200 after bundling and processing, the image capturing device 400 is configured to capture a sample, and the controller 600 is configured to control operating states of the laser generating assembly 200 and the image capturing device 400. In addition, optionally, in this embodiment, the display screen 500 is a touch display screen, and may be configured to display a picture taken and sampled by the image capturing apparatus 400, and may also be configured to display a plurality of virtual operation buttons, and an operator may send a control command to the controller 600 through the display screen 500, so that the controller 600 controls the operating states of the laser generating assembly 200 and the image capturing apparatus 400. For example, a worker may click a laser start button displayed on the display screen 500 to control the laser generation assembly 200 to start generating laser, and output the laser through the laser output assembly 300. For another example, the worker may also click an image capturing device 400 opening button displayed on the display screen 500 to control the image capturing device 400 to open for capturing and sampling.

In this embodiment, the laser generating assembly 200 includes a laser driving circuit 210 and a plurality of lasers 220, the laser driving circuit 210 is connected to the controller 600, and the plurality of lasers 220 are respectively connected to the laser driving circuit 210. The laser output assembly 300 comprises a bundling part 310, a waveguide channel 320 and a laser head 330, wherein the bundling part 310 is connected with the plurality of lasers 220, the waveguide channel 320 is connected with the bundling part 310, and the laser head 330 is connected with the waveguide channel 320.

The laser driving circuit 210 is configured to drive the plurality of lasers 220 to operate according to the control action of the controller 600. The laser 220 may be a semiconductor laser, and specifically, in this embodiment, the plurality of lasers 220 includes a plurality of blue lasers, a plurality of green lasers, a plurality of orange lasers, and a plurality of red lasers. Under the control of the controller 600, the plurality of lasers 220 can respectively generate the lasers with the four different color spectrums of blue, green, orange and red at different time points through the driving action of the laser driving circuit 210. When the field evidence obtaining work is carried out, workers can select lasers with different color spectrums to illuminate according to different substance traces. For example, when the laser with the blue spectrum is required to be used for illumination, after the laser start button displayed on the display screen 500 is clicked, the worker may continue to click the blue laser button displayed on the display screen 500, control the plurality of blue lasers to be started, generate the blue laser, and output the blue laser through the laser output assembly 300. For another example, when the laser with the green spectrum is required to be used for illumination, after the laser start button displayed on the display screen 500 is clicked, the worker may continue to click the green laser button displayed on the display screen 500, control the plurality of green lasers to be started, generate green laser, and output the green laser through the laser output assembly 300.

Referring to fig. 4, due to the limitation of the volume of the housing 100, the portable visualization laser device 10 cannot enter a special environment (e.g., a slit) for operation, so as to facilitate the operation of obtaining evidence of the special environment, and optionally, in this embodiment, the waveguide channel 320 can extend out of the housing 100 to penetrate into the special environment for laser illumination.

Based on the above arrangement, in order to facilitate the accommodation of the waveguide channel 320, optionally, in this embodiment, a first reel device 700 is disposed inside the housing 100, the first reel device 700 is located near the bottom wall 110, and has an axis perpendicular to the bottom wall 110, and the first reel device 700 is connected to the controller 600 and can rotate under the action of the controller 600. In one embodiment, in this embodiment, the first reel device 700 may include a first reel and a first motor connected to a shaft of the first reel, and the first motor is connected to the controller 600 to rotate under the control of the controller 600, so as to rotate the first reel. The waveguide 320 can be retracted from the external environment into the interior of the housing 100 when the first reel rotates, and can be coiled in the first reel device 700, or can extend out of the external environment through the first opening. Thus, it can be understood that when the portable visualization laser device 10 is in an unused state or used for forensic operation in a normal environment, the waveguide 320 may be coiled in the first spool device 700, and the laser head 330 may be engaged with the first opening (as shown in fig. 1), when the portable visualization laser device 10 is used for forensic operation in a special environment, the controller 600 may control the first spool device 700 to rotate, so that the waveguide 320 extends through the first opening (as shown in fig. 4), and after the forensic operation is completed, the controller 600 may control the first spool device 700 to rotate in a reverse direction, so that the waveguide 320 is retracted from the external environment into the housing 100 and coiled in the first spool device 700. It should be noted that the rotation direction of the first reel device 700 may be controlled by an operator clicking a first reel device 700 retraction button and a first reel device 700 extension button displayed on the display screen 500, that is, when the operator clicks the first reel device 700 retraction button displayed on the display screen 500, the controller 600 controls the first reel device 700 to rotate so that the waveguide channel 320 is retracted from the external environment into the casing 100 and is coiled on the first reel device 700, and when the operator clicks the first reel device 700 extension button displayed on the display screen 500, the controller 600 controls the first reel device 700 to rotate so that the waveguide channel 320 extends through the first opening.

In order to avoid the laser irradiation to cause burning and destruction to various traces such as human physiological substances too near, thereby influence the reliability of the work of collecting evidence, optionally, in this embodiment, visual portable laser device 10 still includes optics apart from induction system 800 and voice prompt device 900, optics apart from induction system 800 set up in laser output subassembly 300 just is close to laser head 330, voice prompt device 900 inlays to be located casing 100, optics apart from induction system 800 and voice prompt device 900 respectively with controller 600 is connected. The optical distance sensing device 800 is used for detecting the distance between the laser head 330 and the object waiting for detection of the physiological substance of the human body and sending the distance to the controller 600, so that the controller 600 controls the voice prompt device 900 to send out the voice prompt when judging that the distance is smaller than the preset reference distance.

In this embodiment, the camera device 400 includes a camera host 410, a data transmission line 420 and a camera 430, and the camera 430 is connected to the camera host 410 through the data transmission line 420. Also, in order to facilitate the evidence obtaining work in the special environment, optionally, in this embodiment, the data transmission line 420 can extend out of the housing 100 to go deep into the special environment for shooting and sampling.

Based on the above arrangement, in order to facilitate the storage of the data transmission line 420, optionally, in this embodiment, a second line device 1000 is further disposed inside the casing 100, the second line device 1000 is located at a position away from the bottom wall 110, and an axis of the second line device is perpendicular to the bottom wall 110, and the second line device 1000 is connected to the controller 600 and can rotate under the action of the controller 600. In one embodiment, in this embodiment, the second reel device 1000 may include a second reel and a second motor connected to a shaft of the second reel, and the second motor is connected to the controller 600 to rotate under the control of the controller 600, so as to rotate the second reel. The data transmission line 420 can be retracted from the external environment into the interior of the housing 100 and coiled in the second reel device 1000 when the second reel rotates, or can be extended out of the external environment through the second opening. Thus, it can be understood that when the portable visualization laser device 10 is in an unused state or used for forensic operation in a normal environment, the data cable 420 may be wound around the second cable device 1000, and the camera 430 may be engaged with the second opening (as shown in fig. 1), when the portable visualization laser device 10 is used for forensic operation in a special environment, the controller 600 may control the second cable device 1000 to rotate, so that the data cable 420 extends through the first opening (as shown in fig. 4), and after the forensic operation is completed, the controller 600 may control the second cable device 1000 to rotate in a reverse direction, so that the data cable 420 is retracted from the external environment into the housing 100 and wound around the second cable device 1000. It should be noted that the rotation direction of the second reel device 1000 may be controlled by an operator clicking a second reel device 1000 retraction button and a second reel device 1000 extension button displayed on the display screen 500, that is, when the operator clicks the second reel device 1000 retraction button displayed on the display screen 500, the controller 600 controls the second reel device 1000 to rotate so that the data transmission line 420 is retracted from the external environment into the casing 100 and is wound on the second reel device 1000, and when the operator clicks the second reel device 1000 extension button displayed on the display screen 500, the controller 600 controls the second reel device 1000 to rotate so that the data transmission line 420 extends through the first opening.

For the convenience of observation of the working personnel, in this embodiment, the display screen 500 is connected to the second side wall 130 by a hinge assembly 1100, so that the display screen 500 can rotate to adjust the included angle with the second side wall 130. Specifically, in the present embodiment, the hinge assembly 1100 includes a sleeve 1110 and a rotating shaft 1120, and the sleeve 1110 is disposed on the second side wall 130 at a position far away from the bottom wall 110. In this embodiment, the housing 100 further includes a top wall opposite to the bottom wall 110, and preferably, the sleeve 1110 is disposed at the junction of the second side wall 130 and the top wall. Further, the rotation shaft 1120 is disposed inside the sleeve 1110 and can rotate inside the sleeve 1110 by an external force, the display screen 500 is fixed to the rotation shaft 1120, and specifically, the display screen 500 may be fixed to both ends of the rotation shaft 1120.

In order to ensure that the service life of the portable visualization laser device 10 is long, optionally, in this embodiment, the bottom wall 110 is provided with a heat dissipation opening 111, the portable visualization laser device 10 further includes a heat dissipation device 1200, and the heat dissipation device 1200 is disposed inside the housing 100, corresponds to the heat dissipation opening 111 in position, and is connected to the controller 600. The heat dissipation apparatus 1200 may be a heat dissipation fan, or may be other heat dissipation devices, which is not limited in this embodiment. In order to enhance the intelligence of the visual portable laser device 10, optionally, in this embodiment, a temperature sensor 1300 is further disposed inside the casing 100, and is configured to detect a temperature value inside the casing 100 and send the temperature value to the controller 600, so that when the controller 600 determines that the temperature value is greater than a preset reference temperature value, the heat sink 1200 is controlled to be turned on to cool and dissipate heat for the laser generating assembly 200, the laser output assembly 300, the camera 400, the controller 600, and other devices.

Optionally, in this embodiment, the portable visualization laser device 10 further includes a wireless communication device 1400, and the wireless communication device 1400 is disposed inside the housing 100 and connected to the controller 600. The wireless communication device 1400 may be a WiFi communication circuit, a GPRS/GSM dual-mode wireless communication circuit, or other circuits that can implement long-distance communication, so as to implement long-distance communication with a criminal investigation system, and the wireless communication device 1400 may also be a short-distance communication circuit such as a bluetooth transceiver circuit.

In this embodiment, the portable visualization laser device 10 may further include an operation rod 1500, and the operation rod 1500 is disposed on the bottom wall 110 and can be extended and retracted relative to the bottom wall 110. When the portable visualization laser device 10 is not in use, the operation rod 1500 may be in a retracted state, and when the portable visualization laser device 10 is in use, the operation rod 1500 may be in an extended state, and a worker may hold the operation plate with one hand to perform laser irradiation and shooting and sampling operations.

Optionally, in this embodiment, the portable visualization laser device 10 further includes a base 1600, the base 1600 is disposed at an end of the operating rod 1500, which is far away from the bottom wall 110, and an accommodating space is disposed inside the base 1600. In addition, in this embodiment, the portable visual laser device 10 further includes a power supply device, the power supply device is disposed inside the accommodating space and is respectively connected to the laser generating assembly 200, the laser output assembly 300, the camera device 400, the display screen 500 and the controller 600, so as to provide working electric energy for the laser generating assembly 200, the laser output assembly 300, the camera device 400, the display screen 500 and the controller 600. In this embodiment, the power supply device is a rechargeable battery, the sidewall of the base 1600 is provided with a charging port 1610, and the position of the charging port 1610 corresponds to the charging port of the power supply device to expose the charging port.

In summary, in the portable visualization laser device 10 provided in the embodiment of the present invention, the laser generating assembly 200, the laser output assembly 300, and the camera device 400 are simultaneously disposed inside the housing 100, wherein the laser output assembly 300 is connected to the laser generating assembly 200, the laser output assembly 300 is exposed to the external environment through the first opening disposed on the first sidewall 120 of the housing 100, and the camera device 400 is exposed to the external environment through the second opening disposed on the first sidewall 120 of the housing 100, so that when taking evidence on site, a worker can easily take a picture and sample by holding the portable visualization laser device 10 by hand, and compared with the prior art, the convenience of operation is greatly improved.

Further, the visual portable laser device 10 provided by the embodiment of the present invention is further provided with a display screen 500, and a picture taken and sampled by the camera device 400 can be instantly displayed by the display screen 500, so that a worker can conveniently perform timely observation and analysis.

In the description of the present invention, it should also be noted that the terms "disposed," "mounted," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected unless expressly stated or limited otherwise. Either mechanically or electrically. They may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be further noted that the terms "inside" and "outside" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships conventionally placed when products of the present invention are used, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements indicated must have specific orientations, be constructed in specific orientations, and be operated, and thus, should not be construed as limiting the present invention.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A visual portable laser device is characterized by comprising a shell, a laser generating assembly, a laser output assembly, a camera device, a display screen and a controller, wherein the shell comprises a bottom wall, a first side wall and a second side wall which are opposite to each other, the first side wall is provided with a first opening and a second opening which are communicated with the interior and the exterior environment of the shell, the laser generating assembly, the laser output assembly, the camera device and the controller are arranged in the shell, the laser output assembly is exposed to the exterior environment through the first opening, the camera device is exposed to the exterior environment through the second opening, the display screen is arranged on the second side wall, the laser generating assembly, the camera device and the display screen are respectively connected with the controller, and the laser output assembly is connected with the laser generating assembly;

the laser output assembly comprises a bundling component, a waveguide channel and a laser head, the bundling component is connected with the plurality of lasers, the waveguide channel is connected with the bundling component, the waveguide channel is connected with the waveguide channel, the waveguide channel can be contracted from the external environment into the shell to be coiled in the first reel device when the first reel rotates, or the waveguide channel extends out of the external environment through the first opening;

the second reel device is arranged in the shell and connected with the controller and can rotate under the action of the controller, the camera device comprises a camera host, a data transmission line and a camera, the camera is connected with the camera host through the data transmission line, and the data transmission line can be retracted from the external environment to enter the shell when the second reel rotates and is coiled in the second reel device or extends out of the external environment through the second opening.

2. The portable visual laser device as claimed in claim 1, further comprising an optical distance sensing device and a voice prompt device, wherein the optical distance sensing device is disposed on the laser output assembly and close to the laser head, the voice prompt device is embedded in the housing, and the optical distance sensing device and the voice prompt device are respectively connected to the controller.

3. The visualization portable laser device of claim 1, wherein the display screen is connected to the second side wall by a hinge assembly, such that the display screen can be rotated to adjust an angle with the second side wall.

4. The visualization portable laser device of claim 1, further comprising a lever disposed on the bottom wall and being retractable relative to the bottom wall.

5. The portable visualization laser device according to claim 4, further comprising a base and a power supply device, wherein the base is disposed at an end of the operating rod away from the bottom wall, an accommodating space is disposed inside the base, and the power supply device is disposed inside the accommodating space and is respectively connected to the laser generating assembly, the laser output assembly, the camera device, the display screen and the controller.

6. The portable visualization laser device as claimed in claim 1, wherein the bottom wall is provided with a heat dissipation port, and the portable visualization laser device further comprises a heat dissipation device, the heat dissipation device is disposed inside the housing, corresponds to the heat dissipation port in position, and is connected to the controller.

7. The visualization portable laser device of claim 1, further comprising a wireless communication device disposed inside the housing and connected to the controller.

8. The visualization portable laser device of claim 1, wherein the display screen is a touch display screen.