CN218497491U - XR equipment adapter and display system - Google Patents

Abstract

The utility model provides a XR equipment adapter and display system belongs to internet of things technical field, and this XR equipment adapter includes: the system comprises a main control module, a source equipment connecting module, an XR equipment connecting module, a multimedia signal conversion module and a wireless signal conversion module, wherein the source equipment connecting module, the XR equipment connecting module, the multimedia signal conversion module and the wireless signal conversion module are electrically connected with the main control module; the source device connection module is used for connecting with a source device to obtain an interface signal or a wireless signal transmitted by the source device; the XR equipment connecting module is used for connecting XR equipment; the master control module is configured to convert the interface signals to multimedia signals and schedule the multimedia signal conversion module to convert the multimedia signals to XR device adaptation signals, or is configured to schedule the wireless signal conversion module to convert the wireless signals to XR device adaptation signals and is configured to transmit the XR device adaptation signals to the XR device through the XR device connection module. The utility model discloses can effectively promote XR equipment adapter's adaptation scope and adaptation effect, promote XR equipment adapter's performance and user experience.

Description

XR equipment adapter and display system

Technical Field

The utility model relates to a XR equipment adapter technical field, concretely relates to XR equipment adapter and display system.

Background

An XR device adapter is an adapter for adapting and connecting a source device, such as a mobile phone, and an XR (Extended Reality) device, such as AR glasses.

Currently, an XR device adapter in the related art generally adopts a simple processing module to implement device adaptation, and only can support adaptation of a small number of partial source devices and XR devices, and cannot be well and effectively compatible with content of a large number of different source devices to perform adaptation display on XR, so that a use scene of the XR device is greatly limited, and various source devices cannot be normally linked as desired.

Therefore, the problem that the existing XR equipment adapter has poor adaptation range and poor adaptation effect of equipment exists, and the service performance and the user experience of the XR equipment adapter are poor.

SUMMERY OF THE UTILITY MODEL

The utility model provides a XR equipment adapter can effectively promote XR equipment adapter's equipment adaptation scope and adaptation effect, promotes XR equipment adapter's performance and user experience.

The utility model provides a XR equipment adapter, include: the system comprises a main control module, a source equipment connecting module, an XR equipment connecting module, a multimedia signal conversion module and a wireless signal conversion module, wherein the source equipment connecting module, the XR equipment connecting module, the multimedia signal conversion module and the wireless signal conversion module are electrically connected with the main control module; the source device connection module is used for connecting with a source device to obtain an interface signal or a wireless signal transmitted by the source device; the XR equipment connecting module is used for connecting XR equipment; the master module is configured to convert the interface signals to multimedia signals and schedule the multimedia signal conversion module to convert the multimedia signals to XR device adaptation signals, or is configured to schedule the wireless signal conversion module to convert the wireless signals to XR device adaptation signals and is configured to transmit the XR device adaptation signals to the XR device through the XR device connection module.

In some embodiments, the wireless signal conversion module comprises a bluetooth signal conversion unit; the source device connecting module comprises a Bluetooth module, the Bluetooth module is used for carrying out Bluetooth connection with source devices so as to receive Bluetooth signals sent by the source devices, and the wireless signals comprise the Bluetooth signals.

In some embodiments, the wireless signal conversion module comprises a WIFI signal conversion unit; the source device connecting module comprises a wireless communication module, the wireless communication module is used for being in wireless communication connection with a source device so as to receive WIFI signals sent by the source device, and the wireless signals comprise the WIFI signals.

In some embodiments, the source device connection module includes a device connection interface, and the device connection interface is configured to perform a wired connection with a source device to obtain an interface signal transmitted by the source device.

In some embodiments, a communication processing module is arranged between the device connection interface and the main control module; the communication processing module is configured to process the interface signal into a signal to be converted and then transmit the signal to the main control module, and the main control module converts the interface signal into a multimedia signal.

In some embodiments, the device connection interface includes a dedicated device interface, a housing of the XR device adapter is provided with a storage groove for an interface line, the storage groove is provided with a device interface outlet, and the apple device interface is arranged corresponding to the device interface outlet.

In some embodiments, the device connection interface includes a universal interface, and a universal interface outlet is formed in the housing of the XR device adapter, and the universal interface is disposed corresponding to the universal interface outlet.

In some embodiments, the XR device adapter further comprises a power management module, a power supply, and power supply circuitry; the power supply is connected with each driving module and each device in the XR equipment adapter through the power supply circuit; the power management module is connected with each driving module and the power supply circuit; the power management module is configured to monitor the abnormal state and the working state of each driving module, and manage the power supply state of each driving module and each device through the power supply circuit according to the abnormal state and the working state.

In some embodiments, the XR device adapter further comprises a charging interface and a charging circuit, the charging interface and the power supply being connected by the charging circuit; the power management module is connected with the charging circuit and configured to monitor the voltage of the power supply and control the charging circuit to charge the power supply according to the voltage.

In some embodiments, the XR device adapter further comprises an XR device secondary control component electrically connected to the master module, the XR device secondary control component sending secondary control instructions to the XR device via the master module.

In some embodiments, the XR device auxiliary control assembly includes a hall wheel that sends auxiliary control instructions carrying volume control information or content selection information to the XR device via the master control module.

In some embodiments, the XR device secondary control assembly includes a toggle switch that sends secondary control commands carrying brightness control information or content selection confirmation information to the XR device via the master control module.

In some embodiments, the hall roller comprises a roller bracket, a roller and a roller encoder, the center of the roller is rotatably supported on the roller bracket, the roller bracket is located on one side of the roller, the roller encoder is located on the other side of the roller, the roller encoder is arranged in cooperation with the roller, and the roller encoder is electrically connected with the main board.

In some embodiments, the toggle rod switch comprises a toggle piece, a dial switch and a dial switch integrated piece, wherein a mounting groove is formed in the toggle piece, the dial switch is mounted in the mounting groove in a matching manner, the dial switch is connected with the dial switch integrated piece in a matching manner, and the dial switch integrated piece is electrically connected with the main board.

The utility model provides a display system, a serial communication port, include: the XR equipment adapter is connected with source equipment so as to convert interface signals or wireless signals in the source equipment into XR equipment adapting signals; the XR equipment is connected with the XR equipment adapter and used for displaying content according to the XR equipment adapting signals transmitted by the XR equipment adapter.

The embodiment of the utility model provides an XR equipment adapter, include: the system comprises a main control module, a source equipment connecting module, an XR equipment connecting module, a multimedia signal conversion module and a wireless signal conversion module, wherein the source equipment connecting module, the XR equipment connecting module, the multimedia signal conversion module and the wireless signal conversion module are electrically connected with the main control module; the source device connection module is used for connecting with a source device to obtain an interface signal or a wireless signal transmitted by the source device; the XR equipment connecting module is used for connecting XR equipment; the master module is configured to convert the interface signals to multimedia signals and schedule the multimedia signal conversion module to convert the multimedia signals to XR device adaptation signals, or is configured to schedule the wireless signal conversion module to convert the wireless signals to XR device adaptation signals and is configured to transmit the XR device adaptation signals to the XR device through the XR device connection module.

In this way, the XR device adapter is provided with the main control module, the multimedia signal conversion module and the wireless signal conversion module, so that interface signals or wireless signals transmitted by the source device through the source device connection module can be converted into XR device adaptation signals of the XR device through the main control module, the multimedia signal conversion module and the wireless signal conversion module, wherein the multiple modules cooperate to adapt. Furthermore, the XR equipment adapter can be fine effectual the content of a large amount of different source equipment of compatible and carry out the adaptation on XR and show, and the use scene of XR equipment is very big, and the various source equipment of link that is basically normal at will promotes the adaptation scope, and the mode that the cooperation adaptation of many modules was changed simultaneously can greatly promote XR equipment adapter signal processing performance for the content of source equipment carries out the adaptation display effect on XR outstanding, promotes the adaptation effect. And then the scheme of the utility model, effectively promote XR equipment adapter's equipment adaptation scope and adaptation effect on the whole, promote XR equipment adapter's performance and user experience.

Drawings

The technical solution and other advantages of the present invention will be apparent from the following detailed description of specific embodiments of the present invention, which is to be read in connection with the accompanying drawings.

Fig. 1 is a block diagram of an XR device adapter according to an embodiment of the invention.

Fig. 2 is a structural distribution diagram of the modules and interfaces on the motherboard according to an embodiment of the present invention.

Fig. 3 is a structural diagram of a power management system according to an embodiment of the present invention.

Fig. 4 is a management flowchart of the power management system according to an embodiment of the present invention.

Fig. 5 is a perspective view of an XR device adapter according to an embodiment of the invention.

Fig. 6 is a perspective view of an XR device adapter according to an embodiment of the invention.

Fig. 7 is a front view of an XR device adapter according to an embodiment of the invention.

Fig. 8 is a perspective view of an XR device adapter according to an embodiment of the invention.

Fig. 9 is an exploded view of an XR device adapter in accordance with an embodiment of the invention.

Fig. 10 is a front view of a hall roller according to an embodiment of the present invention.

Fig. 11 is a side view of a hall roller according to an embodiment of the present invention.

Fig. 12 is a structural diagram of a shift lever switch and a shift lever bracket according to an embodiment of the present invention.

Fig. 13 is a perspective view of a shift lever switch according to an embodiment of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Referring to fig. 1, an embodiment of the present invention provides an XR device adapter 1, including in this XR device adapter 1: the system comprises a main control module 10, a source device connecting module 20 electrically connected with the main control module 10, an XR device connecting module 30, a multimedia signal conversion module 40 and a wireless signal conversion module 50; the source device connection module 20 is configured to connect with a source device to obtain an interface signal or a wireless signal transmitted by the source device; the XR device connection module 30 is used for connecting with an XR device; the master module 10 is configured to convert the interface signals to multimedia signals (i.e., HDMI signals) and schedule the multimedia signal conversion module 40 to convert the multimedia signals to XR device adaptation signals, or is configured to schedule the wireless signal conversion module 50 to convert the wireless signals to XR device adaptation signals and to transmit the XR device adaptation signals to the XR device through the XR device connection module 30.

The main control module 10, the multimedia signal conversion module 40 and the wireless signal conversion module 50 can be implemented by a chip or an integrated circuit, which is not limited by the present invention. The utility model discloses an in one embodiment, host system 10 is the main chip, and multimedia signal conversion module 40 is the multimedia signal conversion chip, and wireless signal conversion module 50 can be the wireless signal conversion chip.

The source device connection module 20 and the XR device connection module 30 may be implemented as a connection interface or a communication chip. In an embodiment of the present invention, the source device connection module 20 may include a bluetooth module (e.g., a chip for implementing bluetooth connection), a wireless communication module (e.g., a chip for implementing WIFI connection), and/or a device connection interface (e.g., a Type-C interface, an apple device interface), and the XR device connection module 30 may be an XR device connection interface (e.g., an XR device connection dedicated interface or a general interface such as a Type-C interface), or a bluetooth module (e.g., a chip for implementing bluetooth connection), a wireless communication module (e.g., a chip for implementing WIFI connection).

The source device may be any computing device, such as a mobile phone, a vehicle terminal, a smart watch, etc., an XR device, i.e., an Extended reality (Extended reality) device, which may be a device that implements Augmented Reality (AR), virtual Reality (VR), and/or Mixed Reality (MR). The utility model discloses an among the embodiment, the source equipment is the cell-phone, and XR equipment is AR glasses.

In this way, the main control module 10, the multimedia signal conversion module 40, and the wireless signal conversion module 50 are disposed in the XR device adapter 1, so that interface signals (for example, type-C signals or apple port signals) or wireless signals (for example, WIFI signals or bluetooth signals) transmitted by the source device through the source device connection module 20 can be converted into XR device adaptation signals (for example, DP signals) of the XR device through the main control module 10 and the multiple modules of the multimedia signal conversion module 40 and the wireless signal conversion module 50 in a cooperative adaptation manner, the main control module 10 can further transmit the XR device adaptation signals (for example, DP signals) to the XR device through the XR device connection module 30, and the XR device can adapt and display contents sent by the source device based on the XR device adaptation signals (for example, DP signals).

Furthermore, XR equipment adapter 1 can be fine effectual compatible a large amount of different source device's content and carry out the adaptation on XR and show, XR equipment's use scene is very big, basically, and each source device of normal free desired interlinkage promotes the adaptation scope, and the mode that the cooperation adaptation of multimode was changed simultaneously can greatly promote XR equipment adapter signal processing performance for the content of source device carries out the adaptation display effect on XR outstanding, promotes the adaptation effect. And then the utility model discloses a scheme effectively promotes XR equipment adapter's equipment adaptation scope and adaptation effect on the whole, promotes XR equipment adapter's performance and user experience.

Further, the XR device adapter 1 may include a housing 130 and a motherboard 140, the main control module 10, the source device connection module 20, the XR device connection module 30, the multimedia signal conversion module 40, and the wireless signal conversion module 50 may be disposed on the motherboard 140, and the motherboard 140 may be disposed in the housing 130.

In some embodiments, the wireless signal conversion module 50 may specifically include a bluetooth signal conversion unit, and the bluetooth signal conversion unit may be configured to convert a bluetooth signal into an XR device adaptation signal (e.g., a DP signal); in addition, the source device connecting module 20 includes a bluetooth module, which is configured to perform bluetooth connection with a source device, and receive a bluetooth signal sent by the source device through the bluetooth module, and further, the aforementioned wireless signal includes the bluetooth signal, and the main control module 10 may schedule the bluetooth signal conversion unit to convert the bluetooth signal into an XR device adaptation signal (e.g., a DP signal).

In some embodiments, the wireless signal conversion module 50 may specifically include a WIFI signal conversion unit, and the WIFI signal conversion unit may be configured to convert a WIFI signal into an XR device adaptation signal (e.g., a DP signal); the source device connection module 20 includes a wireless communication module, the wireless communication module is configured to perform wireless communication connection with a source device, and the wireless communication module may receive a WIFI signal sent by the source device, and further, the wireless signal includes the WIFI signal, and the main control module 10 may schedule a WIFI signal conversion unit to convert the WIFI signal into an XR device adaptation signal (for example, a DP signal).

The bluetooth signal conversion unit and the WIFI signal conversion unit can be two independent units, and the bluetooth signal conversion unit and the WIFI signal conversion unit can also be realized by the same module. Referring to fig. 2, the utility model discloses an in the embodiment, wireless signal conversion module 50 realizes simultaneously for bluetooth signal conversion unit and WIFI signal conversion unit, also is that bluetooth signal conversion unit and WIFI signal conversion unit are same unit.

Further, in some embodiments, the source device connection module 20 specifically includes a device connection interface 21, where the device connection interface 21 is used for performing a wired connection with a source device, and obtaining an interface signal transmitted by the source device through the device connection interface 21. Referring to fig. 2, in one embodiment of the present example, the device connection interface 21 includes a general purpose interface 211 and a dedicated device interface 212, where the general purpose interface 211 may be used for wired connection with most of the source devices, and the dedicated device interface 212 may be used for wired connection with some of the dedicated devices. In one manner of this example, the universal interface 211 may be a Type-C interface, which may receive a Type-C signal; the dedicated device interface 212 may be an apple device interface that may receive apple port signals.

Further, with reference to fig. 5 to 9, the device connection interface 21 includes a dedicated device interface 212, the XR device adapter 1 further includes a housing 130, a receiving groove 160 of an interface line 150 (for example, an apple device interface line) may be formed in the housing 130, a device interface outlet 161 is formed in the receiving groove 160, the dedicated device interface 212 may be connected to the main board 140, and after the main board 140 is installed in the housing 130, the position of the dedicated device interface 212 corresponds to the device interface outlet 161. In one embodiment of the present disclosure, the housing 130 may specifically include an upper shell 131 and a lower shell 132, and the receiving groove 160 may be opened on the upper shell 131.

Specifically, as shown in fig. 5, the interface cord 150 in fig. 5 is connected to the dedicated device interface 212 through the device interface outlet 161, and the dedicated device interface cord 150 is received in the receiving groove 160. As shown in fig. 6 and 7, the dedicated-device interface cord 150 is taken out and deployed from the housing groove 160. As shown in fig. 8 and 9, the dedicated device interface cord 150 is not disposed in the receiving groove 160, and the interface cord 150 is not connected to the device interface outlet 161.

Further, with reference to fig. 2 and 9, a universal interface outlet 190 may be formed on the housing 130, and in the embodiment of the present disclosure, the universal interface outlet 190 is formed on the lower shell 132. The universal interface 211 may be coupled to the motherboard 140 such that the universal interface 211 corresponds to the position of the universal interface outlet 190 when the motherboard 140 is mounted in the housing 130.

Further, in some embodiments, with reference to fig. 2 and 9, the XR device connection module 30 is embodied as an XR device connection interface 31, and the XR device connection interface 31 is connected to the motherboard 140. The housing 130 may have an XR device interface outlet 200 formed therein, and the XR device connection interface 31 may correspond to the XR device interface outlet 200 when the motherboard 140 is mounted in the housing 130.

Further, referring to fig. 2, a communication processing module 60 may be disposed between the device connection interface 21 and the main control module 10; the communication processing module 60 is configured to process the interface signal into a signal to be converted and transmit the signal to the main control module 10, and the main control module 10 converts the signal to be converted into a multimedia signal. The signals to be converted can be signals in a specified format according to actual conditions, and the signals are processed by the main control module 10 after being subjected to transfer processing on the interface signals through the communication processing module 60, so that the adaptation effect is further improved. Referring to fig. 2, in an embodiment of the present example, the communication processing module 60 is specifically a Type-C signal processing module, and the Type-C signal processing module may be implemented in an implementable manner such as a chip or an integrated circuit, which is not limited by the present invention; type-C signal processing module sets up between general interface 211 and host system 10, and Type-C signal processing module can be with transmitting extremely after Type-C signal processing is for waiting to convert the signal host system 10. It is understood that in some embodiments, the interface signal is directly transmitted to the host module 10, and the host module 10 converts the interface signal into a multimedia signal.

Further, referring to fig. 2 and 3, in some embodiments, the XR device adapter 1 further includes a power management module 70, a power supply 80, and a power supply circuit 90; the power supply 80 is connected with each driving module and device in the XR device adapter 1 through the power supply circuit 90; the power management module 70 is connected to each of the driving modules and the power supply circuit; the power management module 70 is configured to monitor an abnormal state and an operating state of each of the driving modules, and manage a power supply state of each of the driving modules and devices through the power supply circuit 90 according to the abnormal state and the operating state. The power management module 70 may be implemented by a chip or an integrated circuit, and in one implementation of this example, the power management module 70 is a power management chip. The power source 80 is a battery. The power supply circuit 90 may be composed of circuit elements such as a conductive circuit, a boost chip, a voltage conversion circuit, and a switch. The driving module may include a main control module 10, a source device connection module 20, a multimedia signal conversion module 40, a wireless signal conversion module 50, a communication processing module 60, and the like. The device may be a device in the XR device adapter 1 that requires power from a power source in addition to the drive module.

Specifically, referring to fig. 4, the power management module 70 may perform "voltage monitoring" to "monitor whether each driving module is normal" to obtain an abnormal state of each driving module; if the abnormal state is abnormal if the abnormal state is "no", the power management module 70 may "preferentially supply power to each device" through the control of the power supply circuit 90; if yes, the abnormal state is normal, and the working state of each signal can be monitored, and whether each driving module is in the working state can be further confirmed; if a certain driving module is in the working state, the power management module 70 may "interrupt the power supply of the driving module or send an instruction to make it enter the sleep state" under the control of the power supply circuit 90; if a certain driving module is "yes" in working status, the power management module 70 may "preferentially ensure that the driving module supplies power stably" through the control of the power supply circuit 90. In this way, reliable management and control of power supply voltage in the XR device adapter 1 are further achieved, and the adaptation performance of the XR device adapter 1 is further improved.

Further, referring to fig. 2 and 3, in some embodiments, the XR device adapter 1 further includes a charging interface 100 and a charging circuit 110, wherein the charging interface 100 is connected to the power supply 80 through the charging circuit 110; the power management module 70 is connected to the charging circuit 110, and the power management module is configured to monitor the voltage of the power 70 and control the charging circuit to charge the power 80 according to the voltage. The charging circuit 110 may be composed of circuit elements that can implement a constant current mode (CC) and a constant voltage mode (CV). In one embodiment of this example, the charging interface 100 and the general interface 211 are the same interface, and it is understood that in other embodiments, the charging interface 100 and the general interface 211 may be different interfaces.

Referring to fig. 4, the power management module 70 may perform "voltage monitoring" to further "detect whether the charging interface is connected to the charger"; if yes, judging whether the power supply voltage is larger than a preset threshold (such as 4.3V) or not; if "yes," then "constant voltage CV charging until cutoff"; if "no," CC charging for a predetermined current (e.g., 3A) "is performed. The reliable management and control of external charging system in XR equipment adapter 1 is further realized with this kind of mode, further promotes XR equipment adapter 1's adaptation performance.

Furthermore, XR equipment adapter 1 can also include switch 81, power indicator 82 and battery shell fragment 83 in, and switch 81, power indicator 82 and battery shell fragment 83 set up on mainboard 140 and are connected with mainboard 140 electricity.

With further reference to fig. 2 and 5-9, in some embodiments, the XR device adapter 1 further includes an XR device secondary control assembly 120, the XR device secondary control assembly 120 being electrically connected to the master module 10, the XR device secondary control assembly 120 sending secondary control commands to XR devices through the master module 10. The user can make master control module 10 generate corresponding auxiliary control instruction and send for XR equipment through controlling of XR equipment auxiliary control subassembly 120, realizes further promoting XR equipment adapter's adaptation performance to XR equipment's auxiliary control based on XR equipment adapter 1, promotes user experience.

In some embodiments, the XR device auxiliary control component 120 includes a hall wheel 121, and the hall wheel 121 sends auxiliary control instructions carrying volume control information or content selection information to the XR device through the main control module 10. In this embodiment, the user can conveniently and effectively control the volume and content selection (e.g., selecting an application) of the XR device through the operation of the hall wheel 121, thereby further improving the adaptation effect of the XR device adapter.

Specifically, as shown in fig. 10 and 11, in one embodiment of the present example, the hall wheel 121 includes a wheel bracket 1211, a wheel 1212 and a wheel encoder 1213, wherein a center of the wheel 1212 is rotatably supported on the wheel bracket 1211, the wheel bracket 1211 is located on one side of the wheel 1212, the wheel encoder 1213 is located on the other side of the wheel 1212, the wheel encoder 1213 is disposed in cooperation with the wheel 1212, and the wheel encoder 1213 is electrically connected to the motherboard 140. Further, referring to fig. 9, a roller opening 170 is formed at one side of the housing 130, and the roller 1212 is correspondingly disposed at the roller opening 170 and can extend out of the housing 130 from the roller opening 170 for a user to control. In one embodiment of the present example, the roller opening 170 is specifically formed at one side of the lower shell 132.

In some embodiments, the XR device secondary control assembly 120 includes a jog dial switch 122, and the jog dial switch 122 transmits a secondary control command carrying brightness control information or content selection confirmation information to the XR device via the main control module 10. In this embodiment, the user may control the brightness of the XR device and the content selection determination (e.g., by confirming the selection of an application via the hall wheel 121 after the selection of the application) via manipulation of the toggle switch 122, which further enhances the adaptation of the XR device adapter.

Specifically, as shown in fig. 12 and 13, in an embodiment of this example, the toggle lever switch 122 includes a dial 1222, a dial switch 1223, and a dial switch integral unit 1224, the dial 1222 has an installation groove, the dial switch 1223 is fittingly installed in the installation groove, the dial switch 1223 is fittingly connected to the dial switch integral unit 1224, the dial switch integral unit 1224 is electrically connected to the motherboard 140, and the wave dial 1222 drives the dial switch 1223 to move, so that the dial switch 1223 triggers the dial switch integral unit 1224 to send a signal to the main control module 10. Further, referring to fig. 9 and 12, the toggle lever switch 122 is mounted on the toggle lever bracket 1221, and the toggle lever bracket 1221 is clamped on the main board 140. Further, referring to fig. 9, a switch opening 180 is formed at one side of the housing 130, the toggle switch 122 is correspondingly disposed at the switch opening 180, and the toggle 1222 can extend out of the housing 130 from the switch opening 180 for being operated by a user.

In other embodiments, XR device auxiliary control component 120 may comprise a touch screen, which may be mounted on the housing of XR device adapter 1. The user can make the main control module 10 generate a corresponding auxiliary control command to send to the XR device through a touch operation on the touch screen.

The utility model provides a display system, a serial communication port, include: the XR equipment adapter is connected with source equipment so as to convert interface signals or wireless signals in the source equipment into XR equipment adapting signals; the XR equipment is connected with the XR equipment adapter and used for displaying content according to the XR equipment adapting signals transmitted by the XR equipment adapter. In the display system, the XR device adapter may be the XR device adapter described in any of the foregoing embodiments, and in this way, since the device adaptation range and the adaptation effect of the XR device adapter 1 are extremely excellent, the usability and the user experience of the XR device adapter can be improved, and further the display performance and the user experience of the display system can be integrally improved.

Further, the present invention is based on any of the above embodiments, and the XR device adaptor can realize a display method, which can be applied to any of the above embodiments, wherein the XR device adaptor includes a main control module, a multimedia signal conversion module and a wireless signal conversion module, and the display method can include steps S110 to S130.

Step S110, transmitting a content signal to be displayed, which is transmitted by a source device, to the main control module, wherein the content signal to be displayed comprises an interface signal or a wireless signal; step S120, converting the interface signal or the wireless signal into an XR device adaptation signal through the main control module, wherein the main control module converts the interface signal into a multimedia signal and schedules the multimedia signal conversion module to convert the multimedia signal into the XR device adaptation signal, or the main control module schedules the wireless signal conversion module to convert the wireless signal into the XR device adaptation signal; step S130, the XR device adaptation signal is transmitted to an XR device through the main control module, so that the XR device performs content display based on the XR device adaptation signal.

The content signal to be displayed of the source device can be transmitted to a main control module in the XR device adapter through a source device connecting module, the main control module converts the interface signal into a multimedia signal and schedules the multimedia signal conversion module to convert the multimedia signal into the XR device adapting signal, or the main control module schedules the wireless signal conversion module to convert the wireless signal into the XR device adapting signal. The master control module may transmit the XR device adaptation signal to the XR device through the XR device connection module.

Set up host system, multimedia signal conversion module and wireless signal conversion module in the XR equipment adapter, can be with source equipment through interface signal or the wireless signal of source equipment link module transmission, cooperate the adaptation through host system and multimedia signal conversion module and wireless signal conversion module's multimode and convert the XR equipment adaptation signal into XR equipment. Furthermore, the XR equipment adapter can be well and effectively compatible with the contents of a large number of different source equipment to be subjected to adaptation display on the XR, the use scene of the XR equipment is very large, various source equipment can be basically and normally linked at will, the adaptation range is improved, and meanwhile, the signal processing performance of the XR equipment adapter can be greatly improved by the multi-module collaborative adaptation conversion mode, so that the content of the source equipment is excellent in adaptation display effect on the XR, and the adaptation effect is improved. And then the utility model discloses a scheme effectively promotes XR equipment adapter's equipment adaptation scope and adaptation effect on the whole, promotes XR equipment adapter's performance and user experience.

Furthermore, the display method based on the XR equipment adapter can effectively improve the display effect of the content in the source equipment in the XR equipment and improve the user experience.

In one embodiment, the display method further comprises: transmitting data to be forwarded in source equipment to the main control module; and transmitting the data to be forwarded to the XR equipment through the main control module. The data to be forwarded may be any data that needs to be transmitted to the XR device, the source device may transmit the data to be forwarded to the main control module through the source device connection module, and the main control module may directly forward the data to be forwarded to the XR device or forward the data to be forwarded to the XR device after converting the data to be forwarded into data in a predetermined format.

In one embodiment, the XR device adapter includes an XR device auxiliary control component therein, and the display method may further include: in response to a secondary operation of the XR device secondary control component, the master control module generates a secondary control instruction; and sending the auxiliary control instruction to XR equipment through the main control module, wherein the auxiliary control instruction is used for controlling the XR equipment to execute a target action. The user may generate secondary control instructions through manipulation of the XR device secondary control component to assist in controlling the display of content in the XR device.

In one embodiment, the display method may further include: detecting, by the master control module, a device status of the XR device; and sending a control instruction by the XR equipment through the main control module according to the equipment state, wherein the control instruction is used for controlling the XR equipment to upgrade the equipment. The device state of the XR device may be, for example, whether the XR device is in an operational state or a content display state. The main control module sends a control instruction according to the device state XR device, and controls the XR device to perform device upgrade, wherein the device upgrade may include upgrade of system software or upgrade of application software. In this way, XR equipment adapter can carry out the adaptation upgrading to XR equipment, promotes XR equipment's upgrading convenience and reliability on the one hand, and on the other hand promotes XR equipment adapter's performance itself for XR equipment adapter can not be eliminated along with XR equipment's iteration.

In the foregoing embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

The XR device adapter provided by the embodiment of the present invention is introduced in detail, and the principle and the implementation of the present invention are explained by applying a specific example, and the explanation of the above embodiment is only used to help understand the technical solution and the core idea of the present invention; those of ordinary skill in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the present invention in its various embodiments.

Claims (15)

1. An XR device adapter, comprising:

the system comprises a main control module, a source equipment connecting module, an XR equipment connecting module, a multimedia signal conversion module and a wireless signal conversion module, wherein the source equipment connecting module, the XR equipment connecting module, the multimedia signal conversion module and the wireless signal conversion module are electrically connected with the main control module;

the source device connection module is used for connecting with a source device to obtain an interface signal or a wireless signal transmitted by the source device; the XR equipment connecting module is used for connecting XR equipment;

the master module is configured to convert the interface signals to multimedia signals and schedule the multimedia signal conversion module to convert the multimedia signals to XR device adaptation signals, or is configured to schedule the wireless signal conversion module to convert the wireless signals to XR device adaptation signals and is configured to transmit the XR device adaptation signals to the XR device through the XR device connection module.

2. The XR device adapter of claim 1, wherein the wireless signal conversion module comprises a bluetooth signal conversion unit; the source device connecting module comprises a Bluetooth module, the Bluetooth module is used for carrying out Bluetooth connection with source devices so as to receive Bluetooth signals sent by the source devices, and the wireless signals comprise the Bluetooth signals.

3. The XR device adapter of claim 1 or 2, wherein the wireless signal conversion module comprises a WIFI signal conversion unit; the source device connecting module comprises a wireless communication module, the wireless communication module is used for being in wireless communication connection with a source device so as to receive WIFI signals sent by the source device, and the wireless signals comprise the WIFI signals.

4. The XR device adapter of claim 1, wherein the source device connection module comprises a device connection interface for wired connection with a source device to obtain interface signals transmitted by the source device.

5. The XR device adapter as recited in claim 4 wherein a communication processing module is disposed between the device connection interface and the host control module; the communication processing module is configured to process the interface signal into a signal to be converted and then transmit the signal to the main control module, and the main control module converts the interface signal into a multimedia signal.

6. The XR device adapter of claim 4 wherein said device connection interface comprises a dedicated device interface, said XR device adapter housing defining a receiving slot for an interface cord, said receiving slot defining a device interface outlet, said dedicated device interface being disposed in correspondence with said device interface outlet.

7. The XR device adapter as claimed in claim 4 wherein the device connection interface comprises a universal interface, the XR device adapter housing defining a universal interface outlet, the universal interface being disposed in correspondence with the universal interface outlet.

8. The XR device adapter of claim 1, further comprising a power management module, a power supply, and power supply circuitry; the power supply is connected with each driving module and each device in the XR equipment adapter through the power supply circuit;

the power management module is connected with each driving module and the power supply circuit; the power management module is configured to monitor the abnormal state and the working state of each driving module, and manage the power supply state of each driving module and each device through the power supply circuit according to the abnormal state and the working state.

9. The XR device adapter of claim 8 further comprising a charging interface and charging circuitry, said charging interface being connected to said power supply via said charging circuitry;

the power management module is connected with the charging circuit and is configured to monitor the voltage of the power supply and control the charging circuit to charge the power supply according to the voltage.

10. The XR device adapter as recited in claim 1 further comprising an XR device secondary control component electrically connected to the host module, the XR device secondary control component sending secondary control commands to the XR device via the host module.

11. The XR device adapter of claim 10, wherein the XR device auxiliary control component comprises a hall wheel that sends auxiliary control commands carrying volume control information or content selection information to the XR device via the master control module.

12. The XR device adapter of claim 10 or 11, wherein the XR device auxiliary control assembly comprises a toggle lever switch, the toggle lever switch sending auxiliary control commands to the XR device via the master control module carrying brightness control information or content selection confirmation information.

13. The XR device adapter of claim 11, wherein the hall roller comprises a roller support, a roller and a roller encoder, wherein the center of the roller is rotatably supported on the roller support, the roller support is located on one side of the roller, the roller encoder is located on the other side of the roller, the roller encoder is disposed in cooperation with the roller, and the roller encoder is electrically connected to the motherboard.

14. The XR device adapter of claim 12, wherein the toggle actuator comprises a mounting slot formed in the toggle actuator, a toggle actuator fittingly mounted in the mounting slot, and an integral toggle actuator connected to the integral toggle actuator, the integral toggle actuator being electrically connected to the motherboard.

15. A display system, comprising:

the XR equipment adapter is connected with source equipment so as to convert interface signals or wireless signals in the source equipment into XR equipment adapting signals;

the XR equipment is connected with the XR equipment adapter and used for displaying content according to the XR equipment adapting signals transmitted by the XR equipment adapter.

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