CN113768235A - Novel night vision helmet - Google Patents

Novel night vision helmet Download PDF

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Publication number
CN113768235A
CN113768235A CN202111105116.8A CN202111105116A CN113768235A CN 113768235 A CN113768235 A CN 113768235A CN 202111105116 A CN202111105116 A CN 202111105116A CN 113768235 A CN113768235 A CN 113768235A
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CN
China
Prior art keywords
helmet
night vision
display panel
heat source
base station
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Pending
Application number
CN202111105116.8A
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Chinese (zh)
Inventor
何周平
唐孝兵
苏洋
陈洪才
李书生
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Chengdu Xingyu Rongke Power Electronics Co Ltd
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Chengdu Xingyu Rongke Power Electronics Co Ltd
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Application filed by Chengdu Xingyu Rongke Power Electronics Co Ltd filed Critical Chengdu Xingyu Rongke Power Electronics Co Ltd
Priority to CN202111105116.8A priority Critical patent/CN113768235A/en
Publication of CN113768235A publication Critical patent/CN113768235A/en
Pending legal-status Critical Current

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    • AHUMAN NECESSITIES
    • A42HEADWEAR
    • A42BHATS; HEAD COVERINGS
    • A42B3/00Helmets; Helmet covers ; Other protective head coverings
    • A42B3/04Parts, details or accessories of helmets
    • A42B3/0406Accessories for helmets
    • A42B3/042Optical devices
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B23/00Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices
    • G02B23/12Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices with means for image conversion or intensification
    • G02B23/125Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices with means for image conversion or intensification head-mounted
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B27/00Optical systems or apparatus not provided for by any of the groups G02B1/00 - G02B26/00, G02B30/00
    • G02B27/01Head-up displays
    • G02B27/017Head mounted
    • G02B27/0176Head mounted characterised by mechanical features
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N5/00Details of television systems
    • H04N5/30Transforming light or analogous information into electric information
    • H04N5/33Transforming infrared radiation

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Optics & Photonics (AREA)
  • Engineering & Computer Science (AREA)
  • Multimedia (AREA)
  • Signal Processing (AREA)
  • Astronomy & Astrophysics (AREA)
  • Helmets And Other Head Coverings (AREA)

Abstract

The invention belongs to the technical field of night vision helmets, and particularly relates to a novel night vision helmet which comprises: comprises a helmet body, a night vision device body, a semitransparent display panel and a helmet controller; the helmet controllers of the novel night vision helmets are all in communication connection with the same backpack base station, and the backpack base station is used for receiving position information and direction information of all helmet bodies and analyzing relative position coordinates of all helmet bodies; detecting the direction of the current helmet main body based on a gyroscope sensor, and positioning the position of the helmet main body based on a positioner, so that the position and the direction of the helmet main body which is in communication connection with the gyroscope main body are comprehensively collected in a backpack base station, and a corresponding coordinate map is established; when the backpack base station shares the coordinate data to different helmet main bodies, the position of teammates can be roughly judged by observing the positions and the sizes of the pattern spots displayed on the semitransparent display plate by the residual light of human eyes.

Description

Novel night vision helmet
Technical Field
The invention belongs to the technical field of night vision helmets, and particularly relates to a novel night vision helmet.
Background
With the development of the military technology transformed into civil technology, more and more technologies originally applied in the military are used in production and life, such as: night vision technology, night vision technology is a technology transferred from a tank night vision device, and the night vision technology can be used for seeing the edge of a road, a marked line in the middle of the road, objects on the road and pedestrians on the side of the road, which are ready to cross the road, more clearly at night. With the further development of night vision technology, multi-dimensional night vision terminals, such as night vision helmets, handheld night vision devices, etc., are gradually formed. The night vision helmet is fully applied to the situations of arresting criminals by police, overhauling electricians at night, finding roads under the ground by spacious workers and the like. For example, in the process of maintaining the power supply of buildings and peripheral users and the normal operation of a power system, if power failure occurs, structures such as a flashlight or an illuminating lamp have small irradiation range, so that the human vision has dead angles, the whole environment cannot be seen clearly, and the working efficiency is influenced; under the condition, if a night vision device is used, the field investigation and maintenance can be carried out in the environment of weak light, and the maintenance speed can be effectively improved. In the process of fighting against criminal activities of the police, the night observation capability becomes an important component of the fighting capacity of the police, and the night vision technology and the police equipment are combined, so that the efficiency of obtaining information, fighting against criminal activities, monitoring and commanding, maneuvering police and cooperative coordination of the police equipment at night or in bad weather can be greatly improved.
In the process of capturing activities or controlling criminal behaviors by a police at night, team cooperation is particularly important, the existing cooperation modes of police teams are communicated in a voice mode, and all teammates cannot be observed though part of teammates can be observed through a night vision device, so that carelessness possibly occurs in the team cooperation process to influence the life safety of public security personnel. Therefore, there is a need for a night vision helmet structure that can display the direction and position of the teammates.
Disclosure of Invention
In order to solve the problem that teammates outside the visual field range cannot be observed by the night vision helmet in the prior art, the scheme provides a novel night vision helmet.
The technical scheme adopted by the invention is as follows:
a novel night vision helmet comprises a helmet body, a night vision device body, a semitransparent display panel and a helmet controller; the night vision device body and the semitransparent display plate are movably connected to the front side of the helmet body; the helmet controller is fixedly connected to the rear side of the helmet body, a positioner and a gyroscope sensor are arranged in the helmet controller, the positioner detects position information of the helmet body, and the gyroscope sensor is used for detecting direction information of the helmet body; the helmet controllers of the novel night vision helmets are all in communication connection with the same backpack base station, and the backpack base station is used for receiving position information and direction information of all helmet bodies and analyzing relative position coordinates of all helmet bodies; the backpack base station collects the relative position coordinates of all helmet bodies and shares the relative position coordinates to all helmet controllers, and the helmet controllers calculate the relative positions of other helmet bodies according to the relative position coordinates and control the semitransparent display panel to display.
As an alternative construction and supplementary design to the above solution: the semitransparent display panel comprises a right display panel, a middle display panel and a left display panel, when a human body wears the helmet body, the right display panel is located on the oblique right side of the right eye and used for displaying other helmet bodies located on the right side of the human body, the left display panel is located on the oblique left side of the left eye and used for displaying other helmet bodies located on the left side of the human body, and the middle display panel is located on the front side of the nose bridge and used for displaying other helmet bodies located on the front side of the human body.
As an alternative construction and supplementary design to the above solution: each helmet body displays colored pattern spots on the semitransparent display panel of the other helmet body; according to the distance between the helmet bodies, the size of the pattern spots displayed on the other helmet body is different, the pattern spots are displayed as large pattern spots when the distance is close, and the pattern spots are displayed as small pattern spots when the distance is far.
As an alternative construction and supplementary design to the above solution: the front side of the helmet body is also movably connected with an infrared camera, the orientation of the infrared camera is the same as that of the night vision device body, the infrared camera is electrically connected with the helmet controller, a database is also arranged in the helmet controller, a heat source body profile model is stored in the database, when the infrared camera shoots the heat source body profile, the real-time heat source body profile is matched with the heat source body profile model, and the real-time heat source body profile is sent to the backpack base station when the matching is successful; the backpack base station calculates the relative distance of the heat source body according to the size of the outline of the heat source body.
As an alternative construction and supplementary design to the above solution: after the relative position of the heat source body is calculated, the heat source body is shared by the backpack base station to all helmet controllers, and is displayed by a right display plate, a middle display plate or a left display plate corresponding to the front side of the helmet body.
As an alternative construction and supplementary design to the above solution: the heat source body and the human body wearing other helmet bodies are displayed as pattern spots with different colors.
As an alternative construction and supplementary design to the above solution: the novel night vision helmet also comprises a movable connecting assembly, wherein the movable connecting assembly comprises a connecting arm, a sliding frame, a camera sleeve seat and a night vision device sleeve seat; one end of the connecting arm is rotatably connected with the front side of the helmet body, the other end of the connecting arm is fixedly connected with the sliding frame, the camera sleeve seat is slidably connected on the sliding frame, and the night vision device sleeve seat is fixedly connected with the camera sleeve seat; the camera socket can move in the horizontal direction relative to the sliding frame to be close to or far away from the helmet body.
As an alternative construction and supplementary design to the above solution: the helmet is characterized in that a brim is arranged at the edge of the front side edge of the helmet body, a V-shaped fastener is arranged on one side, close to the helmet body, of the night vision device body, and when the night vision device body is close to the helmet body along with the camera sleeve seat, the V-shaped fastener is buckled to the brim.
As an alternative construction and supplementary design to the above solution: the movable connecting assembly also comprises an arc-shaped groove seat and a sliding connecting seat; arc groove seat fixed connection is provided with the arc groove of arranging along the horizontal direction on the front side of helmet body on the arc groove seat, and sliding connection seat sliding connection is on the arc groove seat to can follow the arc groove and remove.
As an alternative construction and supplementary design to the above solution: the arc center of the arc groove is vertically positioned on the same vertical line with the arc center of the brim.
The invention has the beneficial effects that:
1. according to the scheme, the direction of the current helmet main body can be detected based on the gyroscope sensor, and meanwhile, the position of the helmet main body is positioned based on the positioner, so that the position and the direction of the helmet main body which is in communication connection with the helmet main body are collected in the backpack base station in a coordinated manner, and a corresponding coordinate map can be established according to the information of the position and the direction; when the backpack base station shares the coordinate data to different helmet main bodies, the position of the teammate can be displayed on the semitransparent display board through the helmet controller, and the surplus light of human eyes can roughly judge the direction and distance of the teammate by observing the position and size of the pattern spots displayed on the semitransparent display board;
2. according to the scheme, the infrared camera can be carried, the heat source body including criminals can be identified through the infrared camera, the distance of the heat source body can be estimated through identifying the proportion of the outline of the infrared camera in the camera shooting range, meanwhile, the identified heat source body can be judged through the backpack base station, and if the position of the helmet body is coincident with the position of the heat source body, the helmet can be determined as a team friend; if the position of the heat source body is not overlapped with the helmet body, the helmet body can be predefined as a non-team member, and at the moment, other team members can conveniently know the position of the heat source body through data sharing of the backpack base station, so that the support is facilitated;
3. the infrared camera, the night vision device body, the semitransparent display board and other structures in the scheme are connected to the helmet body through the movable connecting assembly, and the infrared camera, the night vision device body, the semitransparent display board and other components can be turned over to the upper side and can also be rotated in the left and right directions, so that the observation of the semitransparent display board by human eyes is facilitated.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.
FIG. 1 is a diagram of the novel night vision helmet in this embodiment connected to a backpack base station;
FIG. 2 is a schematic view of the novel night vision helmet of the present invention;
FIG. 3 is a connection diagram of the movable connection assembly and the infrared camera, the night vision device body, the translucent display panel and the like;
fig. 4 is a control logic relationship diagram of the novel night vision helmet in the scheme.
In the figure: 1-a helmet body; 2-a movable connection assembly; 21-arc groove seat; 22-a sliding connection seat; 23-a linker arm; 24-a carriage; 25-camera socket; 26-a night vision device nest; 27-V-shaped fasteners; 3-an infrared camera; 4-a night vision device body; 5-a translucent display panel; 51-right display panel; 52-intermediate display panel; 53-left display panel; 6-helmet controller; 61-helmet antenna; 62-a gyroscope sensor; 63-a positioner; 7-backpack base station; 71-base station antenna.
Detailed Description
The technical solutions in the embodiments will be described clearly and completely with reference to the accompanying drawings, and the described embodiments are only a part of the embodiments, but not all embodiments, and all other embodiments obtained by those skilled in the art without creative efforts will belong to the protection scope of the present solution based on the embodiments in the present solution.
Example 1
As shown in fig. 1 to 4, the present embodiment designs a novel night vision helmet, which includes a helmet body 1, a night vision device body 4, a translucent display panel 5, a helmet controller 6, and the like.
The night vision device body 4 and the semitransparent display panel 5 are movably connected to the front side of the helmet body 1; when the night vision device body 4 and the translucent display panel 5 are turned up, the night vision device body 4 and the translucent display panel 5 can be moved away from the front side of the human eyes, so that the observation can be directly performed by the naked eyes, and after the night vision device body 4 and the translucent display panel 5 are turned down, the night vision device body 4 can be moved to the front side of the human eyes, and meanwhile, the translucent display panel 5 is moved to the oblique front side of the human eyes. The night vision device body 4 moves to a certain distance right in front of human eyes, so that enough space is reserved for the human eyes to observe the content on the semitransparent display panel 5 through the residual light; the human eye can directly observe the position of the desired observation target through the night vision device body 4.
Helmet controller 6 fixed connection is in the rear side of helmet body 1, is provided with the antenna that is used for radio communication on helmet controller 6, and this helmet controller 6 embeds there are locator 63 and gyroscope sensor 62, locator 63 detects the positional information of helmet body 1, gyroscope sensor 62 is used for detecting the directional information of helmet body 1. When the police catches criminals, supposing that each team member wears a novel night vision helmet, when the position information and the direction information of a plurality of novel night vision helmets are arranged together, a simple map comprising all team members can be established.
The helmet controllers 6 of the novel night vision helmets are all in communication connection with the same backpack base station 7, the base station antenna 71 is arranged on the upper portion of the backpack base station 7, the backpack base station 7 can be in communication connection with the helmet controllers 6 through data lines, the backpack base station 7 and the helmet controllers can also be in wireless communication connection, the backpack base station 7 is used for receiving position information and direction information of all helmet bodies 1, and relative position coordinates of all helmet bodies 1 are analyzed; therefore, the backpack base station 7 completes corresponding position information statistics, and a corresponding simple position map is built in the backpack base station 7.
After the backpack base station 7 shares the relative position coordinates of each helmet body 1 to all helmet controllers 6, the positions and the directions of other teammates can be judged according to the positions of the backpack base station, and after the positions and the directions of the other teammates are determined, the helmet controllers 6 can control the translucent display panels 5 to display the directions and the distances of the other teammates wearing the helmet bodies 1.
The translucent display panel 5 comprises a right display panel 51, a middle display panel 52 and a left display panel 53, when the human body wears the helmet body 1, the right display panel 51 is located on the oblique right side of the right eye and is used for displaying other helmet bodies located on the right side of the human body, the left display panel 53 is located on the oblique left side of the left eye and is used for displaying other helmet bodies located on the left side of the human body, and the middle display panel 52 is located on the front side of the nose bridge and is used for displaying other helmet bodies located on the front side of the human body. Through the display panels at three different positions, teammates in the front side, the left side and the right side can be conveniently distinguished, so that the instinct of a human body is fully utilized, extra energy is not needed to be spent for manual distinguishing, and the usability of the system is improved.
Each helmet body 1 is displayed as a colored pattern spot on the translucent display panel 5 of the other helmet body; according to the distance between the helmet body 1 and the other helmet body, the size of the pattern spots displayed on the other helmet body is different, the pattern spots are displayed as large pattern spots when the distance is close, and the pattern spots are displayed as small pattern spots when the distance is far. The colored patches may be yellow or green patches, each representing the location of a teammate. Meanwhile, the spots can be provided with an arrow to display the orientation of each teammate, and the display mode not only can simplify the display mode and the data processing mode, but also can enable the semitransparent display panel 5 to display more position information of the teammates, thereby improving the efficiency in the team cooperation process and reducing the data processing difficulty of the helmet controller 6.
According to the scheme, the position and the direction of the teammates are determined based on the gyroscope sensor 62 and the positioner 63, so that a simple position coordinate map can be built in the backpack base station 7, when the backpack base station 7 shares the coordinate data to different helmet main bodies, the position of the teammates can be displayed on the semitransparent display panel 5 through the helmet controller 6, and the position of the teammates can be roughly judged by observing the positions and the sizes of the spots displayed on the semitransparent display panel 5 through the residual light of human eyes; facilitating the execution of team collaboration and observation of execution power.
Example 2
As shown in fig. 1 to 4, on the basis of the structure of the embodiment 1, in order to facilitate timely support and timely response of quick capture work when a single team member finds a criminal or other heat source, an infrared camera 3 is movably connected to the front side of the helmet body 1.
The orientation of this infrared camera 3 is the same with the orientation of night-time vision device body 4, and this infrared camera 3 and helmet controller 6 electric connection, infrared camera 3 can form images according to the self heat of the heat source body to catch corresponding data information.
The helmet controller 6 is also internally provided with a database, the database stores a heat source body outline model, when the infrared camera 3 shoots the heat source body outline, the real-time heat source body outline is matched with the heat source body outline model, and the real-time heat source body outline is sent to the backpack base station 7 when the matching is successful. After capturing corresponding heat information in a dark environment, whether the heat belongs to a human body or not can be judged according to the distribution condition of the heat and the boundary contour, or male and female can be further distinguished. The backpack base station 7 judges the identified heat source body, and if the position of the helmet body 1 is coincident with the position of the heat source body, the helmet body can be determined as a teammate; and if the position of the heat source body does not have the helmet body 1 coinciding therewith, it can be predefined as a non-teammate.
After the heat source body is uploaded to the backpack base station 7, the backpack base station 7 can calculate the relative position or distance of the heat source body according to the ratio of the outline size of the heat source body to the whole shot area. After the calculation of the relative position of the heat source is completed, the backpack base station 7 may incorporate the position information of the heat source into the position map established in embodiment 1, and transmit the data information to each new night vision helmet, so as to share data, and display the data from the right display panel 51, the middle display panel 52, and the left display panel 53 of the new night vision helmet worn by the teammates. Therefore, the position of the heat source body can be conveniently obtained and supported by the whole police team. The heat source body and the human body wearing other helmet bodies are displayed as pattern spots with different colors, so that teammates and non-teammates can be conveniently distinguished. In the activity of fighting crimes of policemen, the infrared camera can identify the heat source body including criminals, the distance of the heat source body can be estimated by identifying the proportion of the outline in the camera range of the infrared camera, the identified heat source body can be judged through the backpack base station, teammates or criminals are identified, and the positions of the heat source body can be conveniently known by other teammates through data sharing of the backpack base station, so that the assistance is facilitated;
example 3
As shown in fig. 1 to 4, on the basis of the structure of the embodiment 1, in order to realize the connection of the infrared camera 3, the night vision device body 4 and the translucent display screen with the helmet body 1, a movable connection assembly 2 is arranged between the two; the movable connecting assembly 2 belongs to one of the important components of the novel night vision helmet. The infrared camera 3, the night vision device body 4, the semitransparent display panel 5 and other structures can be rotated above the helmet body 1 through the movable connecting assembly 2, so that when the helmet is not used, the infrared camera 3, the night vision device body 4, the semitransparent display panel 5 and other components can be turned over to the upper side, and the components are prevented from blocking the visual field; when the device is needed to be used, the device rotates downwards and is opposite to the position of human eyes; in addition, the movable connecting assembly 2 can also control the infrared camera 3, the night vision device body 4, the semitransparent display panel 5 and other components to rotate in the left-right direction, so that the observation of the semitransparent display panel 5 by human eyes is facilitated.
The movable connecting assembly 2 comprises a connecting arm 23, a sliding frame 24, a camera sleeve seat 25, an arc-shaped groove seat 21, a sliding connecting seat 22, a night vision device sleeve seat 26 and the like.
Arc groove seat 21 fixed connection is provided with the arc groove of arranging along the horizontal direction on arc groove seat 21 in the front side of helmet body 1, and sliding connection seat 22's one side slides and sets up in the arc groove for sliding connection seat 22 and arc groove seat 21 sliding connection can follow the arc groove and remove. One end of the connecting arm 23 is rotatably connected with the front side of the helmet body 1, and the rotating direction of the connecting arm 23 is parallel to the horizontal direction, so that the other end of the connecting arm 23 can vertically lift. The other end of the connecting arm 23 is fixedly connected with the sliding frame 24, the camera sleeve seat 25 is connected to the lower side of the sliding frame 24 in a sliding manner, and a hole for installing the infrared camera 3 is formed in the middle of the camera sleeve seat 25. The night vision device socket 26 has a certain length, the middle of the night vision device socket 26 is fixedly connected with the camera socket 25, two ends of the night vision device socket 26 along the length direction are respectively provided with a left night vision device body 4 and a right night vision device body 4, and the two night vision device bodies 4 respectively correspond to left eyes and right eyes of a human body.
The right display plate 51 is connected obliquely to the right side of the night vision device body 4 corresponding to the right eye, the middle display plate 52 is connected between the two night vision device bodies 4, and the left display plate 53 is connected to the left side of the night vision device body 4 corresponding to the left eye.
This camera cover seat 25 can remove in order to be close to or keep away from helmet body 1 along the horizontal direction for carriage 24 to be provided with the brim of a hat at the front side border department of helmet body 1, this brim of a hat is the arc, is provided with V-arrangement fastener 27 in one side that night-time vision device body 4 is close to helmet body 1, and when night-time vision device body 4 was close to helmet body 1 along with camera cover seat 25, this V-arrangement fastener 27 lock was to brim of a hat department. The arc center of the arc groove is vertically positioned on the same vertical line with the arc center of the brim, so that the position of the semitransparent display panel 5 can be adjusted in a left-right mode according to the use habit of human eyes.
The above examples are merely for clearly illustrating the examples and are not intended to limit the embodiments; and are neither required nor exhaustive of all embodiments. And obvious variations or modifications of this technology may be resorted to while remaining within the scope of the technology.

Claims (10)

1. A novel night vision helmet which is characterized in that: comprises a helmet body (1), a night vision device body (4), a semitransparent display panel (5) and a helmet controller (6); the night vision device body (4) and the semitransparent display panel (5) are movably connected to the front side of the helmet body (1); the helmet controller (6) is fixedly connected to the rear side of the helmet body (1), a positioner (63) and a gyroscope sensor (62) are arranged in the helmet controller (6), the positioner (63) is used for detecting the position information of the helmet body (1), and the gyroscope sensor (62) is used for detecting the direction information of the helmet body (1); the helmet controllers (6) of the novel night vision helmets are all in communication connection with the same backpack base station (7), and the backpack base station (7) is used for receiving position information and direction information of all helmet bodies (1) and analyzing relative position coordinates of all helmet bodies (1); the backpack base station (7) collects the relative position coordinates of all helmet bodies (1) and shares the relative position coordinates to all helmet controllers (6), and the helmet controllers (6) calculate the relative positions of other helmet bodies according to the relative position coordinates and control the semitransparent display panel (5) to display.
2. The novel night vision helmet of claim 1, wherein: the semitransparent display panel (5) comprises a right display panel (51), a middle display panel (52) and a left display panel (53), when a human body wears the helmet body (1), the right display panel (51) is located on the oblique right side of the right eye and used for displaying other helmet bodies located on the right side of the human body, the left display panel (53) is located on the oblique left side of the left eye and used for displaying other helmet bodies located on the left side of the human body, and the middle display panel (52) is located on the front side of the nose bridge and used for displaying other helmet bodies located on the front side of the human body.
3. The new night vision helmet as claimed in claim 2, wherein: each helmet body (1) displays colored pattern spots on a semitransparent display panel (5) of the other helmet body; according to the distance of the helmet body (1), the size of the pattern spots displayed on the other helmet body is different, the pattern spots are displayed as large pattern spots when the distance is close, and the pattern spots are displayed as small pattern spots when the distance is far.
4. The new night vision helmet as claimed in claim 3, wherein: the front side of the helmet body (1) is also movably connected with an infrared camera (3), the orientation of the infrared camera (3) is the same as that of the night vision device body (4), the infrared camera (3) is electrically connected with a helmet controller (6), a database is further arranged in the helmet controller (6), a heat source body profile model is stored in the database, when the infrared camera (3) shoots the heat source body profile, the real-time heat source body profile is matched with the heat source body profile model, and the real-time heat source body profile is sent to a backpack base station (7) when the matching is successful; the backpack base station (7) calculates the relative distance of the heat source body according to the outline size of the heat source body.
5. The novel night vision helmet of claim 4, wherein: after the calculation of the relative position of the heat source body is completed, the heat source body is shared by the backpack base station (7) to all helmet controllers (6), and is displayed by a right display plate (51), a middle display plate (52) or a left display plate (53) corresponding to the front side of the helmet body (1).
6. The novel night vision helmet of claim 5, wherein: the heat source body and the human body wearing other helmet bodies are displayed as pattern spots with different colors.
7. The novel night vision helmet as claimed in any one of claims 4 to 6, wherein: the novel night vision helmet further comprises a movable connecting assembly (2), wherein the movable connecting assembly (2) comprises a connecting arm (23), a sliding frame (24), a camera sleeve seat (25) and a night vision device sleeve seat (26); one end of the connecting arm (23) is rotatably connected with the front side of the helmet body (1), the other end of the connecting arm (23) is fixedly connected with the sliding frame (24), the camera sleeve seat (25) is slidably connected on the sliding frame (24), and the night vision device sleeve seat (26) is fixedly connected with the camera sleeve seat (25); the camera socket (25) can move in the horizontal direction relative to the sliding frame (24) to approach or depart from the helmet body (1).
8. The novel night vision helmet of claim 7, wherein: the helmet is characterized in that a brim is arranged at the edge of the front side of the helmet body (1), a V-shaped fastener (27) is arranged on one side, close to the helmet body (1), of the night vision device body (4), and when the night vision device body (4) is close to the helmet body (1) along with the camera sleeve seat (25), the V-shaped fastener (27) is buckled at the brim.
9. The novel night vision helmet of claim 8, wherein: the movable connecting component (2) also comprises an arc-shaped groove seat (21) and a sliding connecting seat (22); arc groove seat (21) fixed connection is provided with the arc groove of arranging along the horizontal direction in the front side of helmet body (1) on arc groove seat (21), and sliding connection seat (22) sliding connection is on arc groove seat (21) to can follow the arc groove and remove.
10. The novel night vision helmet of claim 9, wherein: the arc center of the arc groove is vertically positioned on the same vertical line with the arc center of the brim.
CN202111105116.8A 2021-09-18 2021-09-18 Novel night vision helmet Pending CN113768235A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115327761A (en) * 2022-07-15 2022-11-11 云南电网有限责任公司昆明供电局 Transformer substation inspection telescope

Citations (3)

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