CN119620374A - Multifunctional head-mounted device and operation method thereof - Google Patents

Abstract

The application relates to the technical field of optical instruments. The application discloses multifunctional head-mounted equipment and an operation method thereof, wherein the equipment comprises main body glasses, a first interface, a first accessory, a second interface and a second accessory; the first interfaces are arranged on the main glasses, the first accessories are arranged in multiple manners, one of the first accessories is connected with the first interfaces, the first accessories are detachably connected with the first interfaces, the second interfaces are arranged in multiple manners, and the second interfaces are detachably connected with the second accessories in one-to-one correspondence. According to the application, the first interface and the second interface are arranged, so that the first accessory and the second accessory can be freely selected according to the requirements, the effect of simultaneously using various glasses is achieved, the load of soldiers is reduced as much as possible, the using efficiency of the glasses is increased, and the convenience in action is improved.

Description

Multifunctional head-mounted equipment and operation method thereof

Technical Field

The application relates to the technical field of optical instruments, in particular to multifunctional head-mounted equipment and an operation method thereof.

Background

At present, in the military field, various glasses are rapidly developed, including micro-mirrors, infrared mirrors, night vision devices, zoom mirrors, fusion mirrors, telescopes, mini-detectors and displays. In the same state, different types of glasses are often required to be matched for use, for example, at night, military personnel may need micro-mirrors, infrared mirrors, night vision devices, zoom mirrors, fusion mirrors and the like at the same time, if the glasses are required to be carried by soldiers and soldiers or each person carries one type of glasses in one field training at the same time in one field military operation, the manner of carrying heavy loads on the soldiers is seriously increased or the use efficiency of the soldiers and soldiers on the different glasses is reduced.

Disclosure of Invention

In view of the foregoing, embodiments of the present application provide a multi-functional head-mounted device and a method of operating the same, which aim to solve or at least partially solve the foregoing problems.

The application provides an adjustable port circuit, comprising:

In a first aspect, a multi-function headset is provided, comprising:

the device comprises main body glasses, a first interface, a first accessory, a second interface and a second accessory;

the first interfaces are arranged on the main glasses, the first accessories are arranged in a plurality of types, one of the first accessories is connected with the first interfaces, and the first accessories are detachably connected with the first interfaces;

the second interfaces are arranged in a plurality, the second accessories are arranged in a plurality, and the second interfaces and the second accessories are detachably connected in a one-to-one correspondence mode.

Preferably, the main glasses are one of low-illumination low-light sighting telescope, image intensifier type low-light sighting telescope, infrared sighting telescope, television white light sighting telescope and multispectral sighting telescope;

the first accessory comprises an infrared detection module, a ranging module, a multispectral module and a television aiming module;

The second accessory comprises a WiFi antenna module, a key, an encoder, a Beidou positioning module, a Bluetooth module and a battery power module.

Preferably, the first interface comprises a base, a pressure plate, a handle and an electrical interface;

The base is connected with the main body glasses, the pressing plate is arranged on the base, the handle is arranged on the pressing plate, the electric interface is arranged on the base, and the electric interface is connected with the electric interface of the first accessory.

Preferably, the main body glasses comprise a left lens barrel and a right lens barrel, and the left lens barrel and the right lens barrel are connected through a bracket;

The first interface is arranged on the left lens cone or the right lens cone;

the second interface comprises a WiFi antenna interface, a key interface, an encoder interface and a battery power interface, wherein the WiFi antenna interface, the key interface, the encoder interface and the battery power interface are all arranged on the support.

Preferably, the WiFi antenna interface is disposed at the top of the bracket, and is disposed near the right lens barrel;

the key interface is arranged at the top of the bracket and is close to the left lens barrel;

The encoder interface is arranged on the side part of the bracket and is close to the middle part of the bracket;

The battery power interface is arranged at the bottom of the bracket and is close to the middle part between the bracket and the bracket.

In a second aspect, there is provided a method of operating a multifunctional headset device, for use on a multifunctional headset device according to the first aspect, the method comprising:

acquiring states of the first interface and the plurality of second interfaces;

according to the states of the plurality of second interfaces, installation information and operation prompt information of the second accessories corresponding to the second interfaces are sent to a user;

determining installation information of the first accessory corresponding to the first interface according to the state of the first interface;

and determining an image fusion algorithm according to the installation information of the first accessory.

Preferably, acquiring the states of the first interface and the plurality of second interfaces includes:

determining whether the first accessory is mounted on the first interface;

Determining whether a corresponding second fitting is mounted on each of the second interfaces.

Preferably, the second interface comprises a WiFi antenna interface, a key interface, an encoder interface, a Beidou positioning interface, a Bluetooth interface and a battery power interface, wherein the WiFi antenna interface is connected with a WiFi antenna module, the key interface is connected with a key, the encoder interface is connected with the encoder, the Beidou positioning interface is connected with a Beidou positioning module, the Bluetooth interface is connected with the Bluetooth module, and the battery power interface is connected with a battery power module;

according to the states of the plurality of second interfaces, sending installation information and prompt information of the second accessories corresponding to the second interfaces to a user comprises the following steps:

After the WiFi antenna interface is determined to be connected with the WiFi antenna module, sending installation information of the installed WiFi antenna module and prompt information allowing transmission of images through WiFi to a user;

after the key interface is determined to be connected with the key, sending installation information of the installed key and prompt information for assigning the value to the key to a user;

After determining that the encoder interface is connected with the encoder, sending the installed information of the encoder and prompt information for assigning a value to the encoder to a user;

After determining that the Beidou positioning interface is connected with the Beidou positioning module, sending installation information of installed Beidou positioning module and positioning prompt information read from the Beidou positioning module to a user;

after the Bluetooth interface is determined to be connected with the Bluetooth module, sending installation information of the installed Bluetooth module and prompt information allowing an image to be transmitted through Bluetooth to a user;

after the battery power interface is determined to be connected with the battery power module, the installed information of the battery power module and the prompt information of the electric quantity, the voltage and the duration read from the battery power module are sent to a user.

Preferably, determining the installation information of the first accessory corresponding to the first interface according to the state of the first interface includes:

after the first fitting is installed on the first interface, the type of the first fitting is read from the first fitting.

Preferably, determining an image fusion algorithm according to the installation information of the first accessory includes:

Selecting an image fusion algorithm corresponding to the type of the first accessory according to the type of the first accessory, wherein the image fusion algorithm comprises an infrared-white shimmer fusion algorithm, a multispectral-white shimmer fusion algorithm, a ranging-white shimmer fusion algorithm, a multispectral-infrared fusion algorithm, an infrared-ranging algorithm and a multispectral-ranging algorithm

The above at least one technical scheme adopted by the embodiment of the application can achieve the following beneficial effects:

According to the invention, the first interface and the second interface are arranged, so that the first accessory and the second accessory can be freely selected according to the requirements, the effect of simultaneously using various glasses is achieved, the load of soldiers is reduced as much as possible, the using efficiency of the glasses is increased, and the convenience in action is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute a limitation on the application. In the drawings:

FIG. 1 is a schematic diagram of a multifunctional headset according to an embodiment of the present invention;

FIG. 2 is another schematic diagram of a structure of a multifunctional headset according to an embodiment of the present invention;

FIG. 3 is a schematic top view of a multi-functional headset according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a first interface structure according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a first interface layout according to an embodiment of the present invention;

FIG. 6 is a schematic view of an electrical interface structure of a first fitting according to an embodiment of the invention

Fig. 7 is a schematic diagram of a first interface structure based on a picatinny rail connection base according to an embodiment of the present invention;

FIG. 8 is a control schematic diagram of a master control circuit according to an embodiment of the invention;

FIG. 9 is a flow chart illustrating operation of the device system according to an embodiment of the present invention.

Reference numerals in the drawings are respectively expressed as:

100-main body glasses, 110-left lens cone, 120-right lens cone, 130-eyeshade, 140-support, 200-first interface, 210-mechanical interface, 211-base, 212-pressing plate, 213-handle, 220-electric interface, 200' -first interface based on Picatinny guide rail connecting seat, 310-key interface, 320-WiFi antenna interface, 330-encoder interface, 410-key, 420-WiFi antenna module, 430-encoder, 440-battery power module and 510-electric interface of first accessory.

Specific embodiments of the present invention have been shown by way of the above drawings and will be described in more detail below. The drawings and the written description are not intended to limit the scope of the inventive concepts in any way, but rather to illustrate the inventive concepts to those skilled in the art by reference to the specific embodiments.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be clearly and completely described below with reference to specific embodiments of the present application and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that such use is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "include" and variations thereof are to be interpreted as open-ended terms that mean "include, but are not limited to.

The following describes in detail the technical solutions provided by the embodiments of the present application with reference to the accompanying drawings.

As described above, when different kinds of glasses are used in cooperation, soldiers are required to carry the glasses required by themselves or each person is required to carry one kind of glasses, and the glasses are used in a crossed manner by teams, and this way seriously increases the load of the soldiers or reduces the use efficiency of the soldiers on the different glasses. In order to solve the problems, the present application provides a multifunctional head-mounted device. As shown in fig. 1, 2 and 3, a multifunctional headset includes a main body glasses 100, a first interface 200, a first fitting, a second interface and a second fitting, wherein the first interface 200 is provided on the main body glasses 100, the first fitting is provided in various types, one of the first fittings is connected with the first interface 200, and the first fitting is detachably connected with the first interface 200. The second interfaces are arranged in a plurality, the second fittings are arranged in a plurality, and the second interfaces are detachably connected with the second fittings in a one-to-one correspondence. According to the application, the first interface 200 and the second interface are arranged, so that the first accessory and the second accessory can be freely selected according to the requirements, the effect of simultaneously using various glasses is achieved, the load of soldiers is reduced as much as possible, the using efficiency of the glasses is increased, and the convenience in action is improved.

Specifically, the main glasses 100 are one of low-illumination low-light sighting telescope, image intensifier type low-light sighting telescope, infrared sighting telescope, television white light sighting telescope and multispectral sighting telescope. The first accessory comprises an infrared detection module, a ranging module, a multispectral module and a television aiming module. The first fitting is selected according to the kind of the main body glasses 100. When the main glasses 100 are low-illumination low-light sighting telescope, the first accessory can be any one of an infrared detection module, a ranging module, a multispectral module and a television sighting module, and any one of the infrared detection module, the ranging module, the multispectral module and the television sighting module can be installed on the first interface 200. For example, when the main glasses 100 are externally connected with the infrared detection module through the first interface 200 and the battery power supply module through the second interface, the infrared information detected by the infrared detection module and the electric quantity information of the battery power supply module can be observed through the ocular in the main glasses 100. The subject eyeglass 100 is capable of processing and manipulating information of the infrared detection module, such as framing and tracking a specific target observed by the infrared detection module. The first accessories are complete in variety, and the best observation effect can be realized by reasonably selecting the first accessories in the face of different training tasks and observation conditions.

Further, the first interface 200 may be fixed to the main body glasses 100 by sharing one or more components with the main body glasses 100 or by riveting or welding with screws/bolts or the like.

Further, the main glasses 100 are binocular and binocular head-wearing glasses, and when the main glasses 100 are low-illumination low-light sighting telescope, the main glasses are composed of a left lens cone 110, a bracket 140, a right lens cone 120 and an eye cover 130. The first interface 200 is disposed on the left lens barrel 110, and the first fitting is connected with the main glasses 100 through the first interface 200 on the left lens barrel 110, so as to realize mutual communication in electrical function. Further, the number of the first interfaces 200 disposed on the glasses 100 is not limited to one or two, and should be arranged and disposed in a space that is optimized according to the practical requirements.

Further, the electrical interface 220 of the first interface 200 is paired with the electrical interface 510 of the first accessory. As shown in fig. 4, the first interface 200 is composed of an electrical interface 220 and a mechanical interface 210, and in this embodiment, the electrical interface 220 is composed of an electronic component, such as a PCB board, a thimble, a spring pin, a first contact, and the like. Furthermore, the number of the ejector pins and the contacts should be determined according to the actual use condition. Further, as shown in fig. 6, a board and a second contact corresponding to the electrical interface 220 are provided on the electrical interface 510 of the first accessory, and the electrical interface 220 is connected to the electrical interface 510 of the first accessory, so that the first interface 200 and the first accessory can be electrically and signally connected. The mechanical interface 210 is composed of a base 211, a platen 212, a handle 213, etc. The base 211 is fixed to the main body glasses 100, and the air tightness of the main body glasses 100 is ensured by means of sealing glue adhesion or O-ring addition. The clamp plate 212 sets up on the base 211, and handle 213 passes clamp plate 212 and passes through the screw thread to be fixed on the base 211, and when the electric interface 220 of first interface 200 and the electric interface 510 of first accessory pair use, compress tightly clamp plate 212 through handle 213 and can realize the loading and unloading of electric interface 510 of first accessory, easy to assemble.

As shown in fig. 5, the first interface 200 includes 17 sets of connection pins, which are distributed in a circular shape with three circles inside and outside, and the definition of the pins is shown in table 1.

TABLE 1 first interface spring needle meaning Meter

As can be seen from fig. 4, fig. 5 and table 1, the pop needle 1 and the pop needle 7 are connected with a power supply, and broadband voltage is output (3 v-5 v) for driving an external first accessory (an infrared detection module or a ranging module or a multispectral module or a television aiming module), the pop needle 1 is located at the center of an inner ring, the pop needle 7 is located at a middle ring, and the space distance between the pop needle 1 and the pop needle 7 is relatively short, so that the impedance of power supply transmission can be effectively reduced. The spring needle 2 and the spring needle 8 are ground and are used for balancing low potential level in equipment connection, the spring needle 2 is located in the middle ring, the spring needle 8 is located in the outer ring, the space distance between the spring needle 2 and the spring needle 8 is relatively short, and the impedance of power supply transmission can be effectively reduced. The flick needles 3-6 and 9-11 are data transmission interfaces for transmitting video signals by an external detection module. The spring pin 13 is a clock signal and is used for clock control when transmitting signals. The 7-bit data signals transmitted by the shot 3 to the shot 6 and the shot 9 to the shot 11 plus the 1-bit clock signal transmitted by the shot 13 form a single-transmission video signal. The spring needle 12 is a detection signal, and can be freely set for high and low level detection, and is used for monitoring access when an external detection module is connected. The bullet pins 14 and 15 are respectively frame detection and line detection of the transmission image, and are used for frame check and line check of the transmission image, and if the check bit transmission is incorrect, the corresponding frame and line data are discarded. The spring needle 16 and the spring needle 17 are output and input signals for controlling other functions such as a switch of an external detection module.

Further, in other embodiments, the appearance and the fixing manner of the first interface 200 should be determined according to actual use. For example, a first interface 200' based on picatinny rail connection base, an interface based on dovetailed tactical rail connection base, a two-pin interface, a straight-pin interface, etc. may be selected.

Further, the infrared detection module, the ranging module, the multispectral module and the television aiming module in the first accessory should have moderate size and proper weight, and the first accessory is not affected by oversized or overweight first accessory after being connected to the main glasses 100 through the first interface 200.

Further, as shown in fig. 1, the second interface includes a WiFi antenna interface 320, a key interface 310, an encoder interface 330, a beidou positioning interface, a bluetooth interface, and a battery power interface. The second accessory includes a WiFi antenna module 420, a key 410, an encoder 430, a Beidou positioning module, a Bluetooth module and a battery power module 440.WiFi antenna interface 320 connects WiFi antenna module 420, button interface 310 connects button 410, encoder interface 330 connects encoder 430, big dipper positioning interface connects big dipper positioning module, bluetooth interface connects bluetooth module, battery power interface connects battery power module 440.

Specifically, the first interface 200 is disposed on the left barrel 110 or the right barrel 120, and in this embodiment, the first interface 200 is disposed on the left barrel 110.

Specifically, the second interface is disposed on the bracket 140, and the WiFi antenna interface 320, the key interface 310, the encoder interface 330, the beidou positioning interface, the bluetooth interface, and the battery power interface. As shown in fig. 1, a WiFi antenna interface 320 is provided on the top of the bracket 140, near the right barrel 120, for transmitting video, images, etc., detected by the glasses. The key interface 310 is disposed on the top of the bracket 140 and near the left barrel 110, and is used for connecting with the key 410, and can customize the functions, such as taking a photograph of the glasses, recording the detected video at the moment, and the like. The encoder interface 330 is disposed at a side of the holder 140 near the middle of the holder 140, and the battery power interface is disposed at the bottom of the holder 140 near the middle between them for function selection, page turning, etc. in the glasses. In this embodiment, the key interface 310, the wireless interface, and the encoder interface 330 all take the form of Type-C. A round battery power interface is arranged at the bottom of the mirror body and is used for externally connecting a power supply. A connection cable is provided at a rear portion of the body of the left barrel 110 for transmitting video signals and power supply functions.

A schematic control diagram of the main control circuit in the main glasses 100 is shown in fig. 8. The dual-tube dual-purpose head-mounted night vision glasses are taken as main glasses 100, namely, the two sets of objective lenses (including detectors), two sets of ocular lenses (including displays) and a main control circuit. The objective lens is formed by orderly arranging a plurality of aspheric curved surfaces with different focal lengths or glass lenses of the superlens in the optical axis direction, mainly collects light rays of the surrounding environment, projects the light rays onto the detector and is convenient for the detector to image. The detector mainly adopts a white light detector, mainly responds to 400-1000 nm wavelength light, and is mainly used for night vision imaging in a white light environment. The ocular consists of several aspheric curved surfaces with different focal lengths or glass lenses of superlenses which are orderly arranged in the direction of the optical axis, and is mainly used for reasonably amplifying pictures on a display so as to facilitate the observation of operators. The display mainly takes the micro display as a main part, is convenient for integrally controlling the weight of the head-mounted equipment, and simultaneously improves resolution, display brightness, color and the like as much as possible, so that an observer has certain comfort level when using the equipment. The micro-display mainly comprises micro-OLED, and displays with standardized sizes of 0.39, 0.6 and the like are mostly adopted, so that the maintainability, the universality and the interchangeability of the equipment are improved. Further, instead of using a micro OLED display, LCOS, DLP, micro-LED, LCD, etc. displays can be used.

The second accessory which can be matched with the periphery of the main control circuit comprises a WiFi antenna module 420, a key 410, an encoder 430, a Beidou positioning module, a Bluetooth module, a battery power module 440 and the like. The WiFi antenna module 420, the key 410, the encoder 430, the Beidou positioning module, the Bluetooth module, the battery power module 440 and the like are connected with the main control circuit board through a second interface, and when in actual use, the second accessories can be selected according to specific tasks and other requirements, one or more second accessories can be installed, and all the second accessories can be selected. Further, the second interfaces reserved on the main control circuit board correspond to the second accessories one by one, the second accessories cannot share the second interfaces on the main control circuit board, and otherwise, all the accessories cannot be selected. According to the application, a plurality of electrical functions are modularized (the WiFi antenna module 420, the keys 410, the encoder 430, the Beidou positioning module, the Bluetooth module and the battery power module 440), so that customized selection and allocation can be realized according to customer requirements in the production and sales process, and different personalized services can be realized at extremely low price.

The embodiment also provides an operation method of the multifunctional head-mounted device, which is applied to the multifunctional head-mounted device as described above, as shown in fig. 9, and the method includes:

S10, acquiring states of a first interface 200 and a plurality of second interfaces;

specifically, the method comprises the steps of determining whether a first accessory is installed on the first interface 200, and determining whether a corresponding second accessory is installed on each second interface.

S20, according to the states of the plurality of second interfaces, sending installation information and operation prompt information of second accessories corresponding to the second interfaces to a user;

specifically, the method comprises the following steps:

after the WiFi antenna interface 320 is determined to be connected with the WiFi antenna module 420, the installation information of the WiFi antenna module 420 and prompt information allowing the image to be transmitted through WiFi are sent to a user;

after determining that the key interface 310 is connected with the key 410, sending installation information of the key 410 and prompt information for assigning values to the key 410 to a user;

After determining that the encoder interface 330 is connected with the encoder 430, sending installation information of the encoder 430 installed and prompt information for assigning a value to the encoder 430 to a user;

After determining that the Beidou positioning interface is connected with the Beidou positioning module, sending installation information of installed Beidou positioning module and positioning prompt information read from the Beidou positioning module to a user;

after the Bluetooth interface is determined to be connected with the Bluetooth module, sending installation information of the installed Bluetooth module and prompt information allowing an image to be transmitted through Bluetooth to a user;

after determining that the battery power interface is connected with the battery power module 440, the user is sent with installation information of the battery power module 440 and prompt information of electric quantity, voltage and duration read from the battery power module 440.

S30, according to the state of the first interface 200, determining the installation information of the first accessory corresponding to the first interface 200;

Specifically, after the first accessory is installed on the first interface 200, feedback information of the first accessory is obtained, and it is determined that the first accessory is an infrared detection module, a ranging module, a multispectral module, or a television aiming module according to the feedback information of the first accessory. Specifically, after the first accessory is connected, the contact is switched on, the table 1 shows that the 12 spring pin is a detection pin, and when the 12 spring pin is switched on, the main control circuit sends a detection signal, and the first accessory returns accessory information. For example, the transmitted detection signal is "000", the feedback information of the first accessory received "000" is "001" to represent that the first accessory is an infrared detection module, the feedback information of the first accessory is "010" to represent that the first accessory is a ranging module, the feedback information of the first accessory is "100" to represent that the first accessory is a multispectral module, and the feedback information of the first accessory is "011" to represent that the first accessory is a television aiming module.

And S40, determining an image fusion algorithm according to the installation information of the first accessory.

Specifically, the method comprises the following steps:

according to the type of the first accessory, selecting an image fusion algorithm corresponding to the type of the first accessory, wherein the image fusion algorithm comprises an infrared-white light fusion algorithm, a multispectral-white light fusion algorithm, a ranging-white light fusion algorithm, a multispectral-infrared fusion algorithm, an infrared-ranging algorithm and a multispectral-ranging algorithm.

In a specific embodiment, as shown in fig. 8, after the device starts to operate, in the first step, the device self-checking is performed, and in the second step, after the self-checking is completed, whether the power battery module, the WiFi antenna module 420, the bluetooth module, the beidou positioning module, the key 410, the encoder 430 and the like are installed is determined according to the state of each second interface. The main control circuit reads basic information of the power battery module, including voltage, electric quantity and the like, and some data which can be deduced by the basic data, including the residual using time of the equipment system and the like, if the power battery module is accessed into the main control circuit through the power battery interface, the WiFi antenna module 420 (Bluetooth module) is accessed into the main control circuit through the WiFi antenna interface 420 (Bluetooth interface), the equipment is allowed to send or receive related image information through the WiFi module (Bluetooth module), if the Beidou positioning module is accessed into the main control circuit through the Beidou positioning interface, the basic information of the Beidou positioning module is read, including azimuth, distance and the like, if the key 410 and the encoder 430 are accessed into the main control circuit, a user is reminded of assigning values to the key 410 and the encoder 430, for example, a video mode can be selected through the key 410, a menu can be selected up and down or left and right through the encoder 430 and the like. Third, after the detection of the second interface and the second accessory is completed, the device starts to operate, at this time, the installation information of the first accessory corresponding to the first interface 200 is determined according to the state of the first interface 200, and the image fusion algorithm is determined according to the installation information of the first accessory. Specifically, the first accessory comprises an infrared detection module, a ranging module, a multispectral module and a television aiming module, and one of the infrared detection module, the ranging module, the multispectral module and the television aiming module is installed on the first interface 200. The main control circuit reads and processes the image data of the first accessory, and performs image fusion processing with the low-light level images acquired by the main glasses 100. The first accessories are different in type, and the image fusion algorithm is different in selection, for example, when an infrared detection module is externally connected, an infrared-low-light-level image fusion algorithm is selected, and when a distance measurement module is externally connected, real distance measurement information on a low-light-level image layer is selected. In the embodiment, an infrared-white shimmer fusion algorithm, a multispectral-white shimmer fusion algorithm, a ranging-white shimmer fusion algorithm, a multispectral-infrared fusion algorithm, an infrared-ranging algorithm and a multispectral-ranging algorithm are integrated in the equipment system, so that the cooperation of selecting different types of first accessories is met. And fourthly, determining an image display mode according to the prompt information, wherein a user can select any one mode of fusion image display, single image display (low-illumination low-light image, white light television image and infrared image), key image display (adopting methods such as local amplifying picture-in-picture display or target real surrounding blurring processing display) and basic information selection display (carrying out operations such as edge tracing processing on a display area) according to the prompt information. And fifthly, the eyepiece end starts to display the selected image.

The invention has the specific application scene that the main glasses 100 are taken as an example to face different observation tasks and objects, the first accessories are selected and matched before the main glasses 100 are started, the main glasses comprise a power battery module, a WiFi antenna module 420, a Bluetooth module, a Beidou positioning module, a key 410, an encoder 430 and the like, the first accessories for supplementary observation can be selected and matched singly or in multiple modes, the first accessories for supplementary observation comprise an infrared detection module, a ranging module, a multispectral module, a television aiming module and the like, one of the first accessories can be selected and matched, the main glasses 1001 can still realize the functions of the low-illuminance night glasses if any first accessory is not matched, and the display images can be further processed and processed, such as low-light infrared fusion images, pure infrared images, pure low-light images and the like, and the display images can be displayed in a further processing mode, such as key display and edge display. After the assembly of the fittings is completed, the device can be started for use.

According to the application, the first interface 200 and the second interface are arranged, so that the first accessory and the second accessory can be freely selected according to the requirements, the effect of simultaneously using various glasses is achieved, the load of soldiers is reduced as much as possible, the using efficiency of the glasses is increased, and the convenience in action is improved. According to the application, a plurality of image fusion algorithms (infrared-white shimmer fusion algorithm, multispectral-white shimmer fusion algorithm, ranging-white shimmer fusion algorithm and the like) are integrated, and an external detector (a first accessory) is selected and matched carelessly, so that different functions and different types of accessories are combined for use, the combined superposition of multiple functional effects is realized, the special combat requirement is met, the weight of a product is reduced, and the portable device is convenient for carrying along with the army.

In the present disclosure, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The term "plurality" refers to two or more, unless explicitly defined otherwise.

Other embodiments of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This invention is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the invention and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. The specification and examples are to be regarded in an illustrative manner only.

The foregoing is only illustrative of the present invention and is not to be construed as limiting thereof, but rather as various modifications, equivalent arrangements, improvements, etc., within the spirit and principles of the present invention.

Claims (10)

1. A multi-function headset, comprising:

the device comprises main body glasses, a first interface, a first accessory, a second interface and a second accessory;

the first interfaces are arranged on the main glasses, the first accessories are arranged in a plurality of types, one of the first accessories is connected with the first interfaces, and the first accessories are detachably connected with the first interfaces;

the second interfaces are arranged in a plurality, the second accessories are arranged in a plurality, and the second interfaces and the second accessories are detachably connected in a one-to-one correspondence mode.

2. A multi-function headset as recited in claim 1, wherein,

The main glasses are one of low-illumination low-light sighting telescope, image intensifier type low-light sighting telescope, infrared sighting telescope, television white light sighting telescope and multispectral sighting telescope;

the first accessory comprises an infrared detection module, a ranging module, a multispectral module and a television aiming module;

The second accessory comprises a WiFi antenna module, a key, an encoder, a Beidou positioning module, a Bluetooth module and a battery power module.

3. A multi-function headset as recited in claim 1, wherein,

The first interface comprises a base, a pressing plate, a handle and an electrical interface;

The base is connected with the main body glasses, the pressing plate is arranged on the base, the handle is arranged on the pressing plate, the electric interface is arranged on the base, and the electric interface is connected with the electric interface of the first accessory.

4. A multi-function headset as recited in claim 1, wherein,

The main body glasses comprise a left lens cone and a right lens cone, and the left lens cone and the right lens cone are connected through a bracket;

The first interface is arranged on the left lens cone or the right lens cone;

the second interface comprises a WiFi antenna interface, a key interface, an encoder interface and a battery power interface, wherein the WiFi antenna interface, the key interface, the encoder interface and the battery power interface are all arranged on the support.

5. A multi-function headset as recited in claim 4, wherein,

The WiFi antenna interface is arranged at the top of the bracket and is close to the right lens barrel;

the key interface is arranged at the top of the bracket and is close to the left lens barrel;

The encoder interface is arranged on the side part of the bracket and is close to the middle part of the bracket;

The battery power interface is arranged at the bottom of the bracket and is close to the middle part between the bracket and the bracket.

6. A method of operating a multi-function head-mounted device as claimed in any one of claims 1 to 5, the method comprising:

acquiring states of the first interface and the plurality of second interfaces;

according to the states of the plurality of second interfaces, installation information and operation prompt information of the second accessories corresponding to the second interfaces are sent to a user;

determining installation information of the first accessory corresponding to the first interface according to the state of the first interface;

and determining an image fusion algorithm according to the installation information of the first accessory.

7. The method of claim 6, wherein the method further comprises the steps of,

Acquiring states of the first interface and the plurality of second interfaces, including:

determining whether the first accessory is mounted on the first interface;

Determining whether a corresponding second fitting is mounted on each of the second interfaces.

8. The method of claim 6, wherein the method further comprises the steps of,

The second interface comprises a WiFi antenna interface, a key interface, an encoder interface, a Beidou positioning interface, a Bluetooth interface and a battery power interface, wherein the WiFi antenna interface is connected with a WiFi antenna module, the key interface is connected with a key, the encoder interface is connected with the encoder, the Beidou positioning interface is connected with a Beidou positioning module, the Bluetooth interface is connected with the Bluetooth module, and the battery power interface is connected with a battery power module;

according to the states of the plurality of second interfaces, sending installation information and prompt information of the second accessories corresponding to the second interfaces to a user comprises the following steps:

After the WiFi antenna interface is determined to be connected with the WiFi antenna module, sending installation information of the installed WiFi antenna module and prompt information allowing transmission of images through WiFi to a user;

after the key interface is determined to be connected with the key, sending installation information of the installed key and prompt information for assigning the value to the key to a user;

After determining that the encoder interface is connected with the encoder, sending the installed information of the encoder and prompt information for assigning a value to the encoder to a user;

After determining that the Beidou positioning interface is connected with the Beidou positioning module, sending installation information of installed Beidou positioning module and positioning prompt information read from the Beidou positioning module to a user;

after the Bluetooth interface is determined to be connected with the Bluetooth module, sending installation information of the installed Bluetooth module and prompt information allowing an image to be transmitted through Bluetooth to a user;

after the battery power interface is determined to be connected with the battery power module, the installed information of the battery power module and the prompt information of the electric quantity, the voltage and the duration read from the battery power module are sent to a user.

9. The method of claim 6, wherein the method further comprises the steps of,

Determining, according to the state of the first interface, installation information of the first accessory corresponding to the first interface, including:

after the first fitting is installed on the first interface, the type of the first fitting is read from the first fitting.

10. The method of claim 6, wherein the method further comprises the steps of,

Determining an image fusion algorithm according to the installation information of the first accessory, wherein the image fusion algorithm comprises the following steps:

According to the type of the first accessory, selecting an image fusion algorithm corresponding to the type of the first accessory, wherein the image fusion algorithm comprises an infrared-white shimmer fusion algorithm, a multispectral-white shimmer fusion algorithm, a ranging-white shimmer fusion algorithm, a multispectral-infrared fusion algorithm, an infrared-ranging algorithm and a multispectral-ranging algorithm.