CN219418118U - Handheld interaction controller - Google Patents

Abstract

The utility model provides a handheld interaction controller which is in communication connection with VR display equipment, wherein the handheld interaction controller comprises a panel, a handle body, a circuit board and a user-defined key; the handle body extends along the front-back direction; the panel is arranged at the front end of the handle body and forms an accommodating space together with the handle body; the circuit board is positioned in the accommodating space and is electrically connected with the custom key; the custom keys can be set by the user for different functions. By setting the custom keys on the hand-held interaction controller, the user-diversified requirements can be met, and meanwhile, the number of function keys on the finger interaction controller is reduced.

Description

Handheld interaction controller

Technical Field

The embodiment of the application relates to the technical field of virtual reality equipment, in particular to a handheld interaction controller.

Background

The "Virtual Reality" is from the english "Virtual Reality", abbreviated VR technology. The virtual reality technology (VI) is a comprehensive technology integrating computer technology, sensor technology, human psychology and physiology, and is characterized in that a computer simulation system is utilized to simulate the external environment, and mainly simulate objects such as environment, skill, sensing equipment and perception, and the like, so as to provide multi-information, three-dimensional dynamic and interactive simulation experience for users.

There are various VR display devices, and VR head display is used to seal the human vision and hearing to the outside by using the head-mounted display device, so as to guide the user to generate a feeling of being in the virtual environment. The display principle is that the left and right eye screens respectively display left and right eye images, and human eyes can generate stereoscopic impression in the brain after acquiring the information with the difference.

At present, an interactive function is required to be realized through an interactive controller and a VR display device, so that the effect of performing related operations in a virtual environment can be achieved, and a user has a more immersive experience.

The handheld interaction controller is an interaction controller matched with the VR display device, the handheld interaction controller is connected with the VR display device through a wireless channel, and a user interacts with virtual reality through the handheld interaction controller. However, with the increase of VR display device functions, the handheld interactive controller needs to have more control functions to meet the diversified demands of users.

Disclosure of Invention

Embodiments of the present application provide a handheld interactive controller to at least partially solve the above-described problems.

According to the embodiment of the application, a handheld interaction controller is provided and is in communication connection with VR display equipment, and the handheld interaction controller comprises a panel, a handle body, a circuit board and a custom key; the handle body extends along the front-back direction; the panel is arranged at the front end of the handle body and forms an accommodating space together with the handle body; the circuit board is positioned in the accommodating space and is electrically connected with the custom key; the custom keys can be set by the user for different functions.

Optionally, the panel is provided with a third plate avoidance hole, the user-defined key movably passes through the third plate avoidance hole, and one end of the user-defined key is exposed out of the panel.

Optionally, the custom key includes third button cap and second paster button switch, the second paster button switch sets up on the circuit board, the third button cap passes dodge the hole on the third board, one end expose in the outside of panel, the other end with the second paster button switch is connected, in order to drive the second paster button switch.

Optionally, the handheld interactive controller further includes an inner housing, the inner housing is located in the accommodating space and fixedly mounted on the handle body, and the circuit board is mounted on the inner housing.

Optionally, the circuit board with the panel is located the relative both sides of inner shell, be provided with on the inner shell and dodge the hole on the third shell, dodge the hole on the third shell and dodge the hole on the third board and correspond, the third button cap passes dodge the hole on the third shell in order to be connected with the second paster button switch.

Optionally, the handheld interaction controller further includes an upper touch pad, the upper touch pad is disposed in a first touch area of the panel, when a finger of a user touches the first touch area, the upper touch pad can generate a plurality of first induction electric signals according to a touch gesture of the finger, and the circuit board obtains the first induction electric signals.

Optionally, the upper touch pad is a capacitive touch pad and is disposed on an inner surface of the panel, and the handheld interaction controller further includes a conductive spring, where one end of the conductive spring is electrically connected to the upper touch pad and the other end of the conductive spring is electrically connected to the circuit board.

Optionally, an avoidance port is formed in the inner shell; the conductive spring passes through the avoidance port to be electrically connected with the upper touch pad.

Optionally, the handheld interaction controller further includes a first control key and a second control key for being controlled by the thumb, and the first control key and the second control key are electrically connected with the circuit board.

Optionally, the panel is provided with a second plate avoidance hole, the second control key movably penetrates through the second plate avoidance hole, and one end of the second control key is exposed out of the panel; the panel is provided with a first plate avoidance hole, the first control key movably penetrates through the first plate avoidance hole, and one end of the first control key is exposed out of the panel.

The beneficial effects are that:

by adopting the technical scheme, the user-defined keys are arranged on the handheld interaction controller, so that the diversified demands of users can be met, and meanwhile, the number of the function keys on the finger interaction controller is reduced, namely, the space is saved, and meanwhile, the control function demands are met.

Drawings

The following drawings are only for purposes of illustration and explanation of the present application and are not intended to limit the scope of the present application. Wherein, the liquid crystal display device comprises a liquid crystal display device,

fig. 1 is a schematic perspective view of a handheld interaction controller according to an embodiment of the present application.

Fig. 2 is a front view of a handheld interaction controller according to an embodiment of the present application, where a part of the structure is omitted.

Fig. 3 is an exploded schematic view of a part of a structure of a handheld interaction controller according to an embodiment of the present application.

Fig. 4 is a side view of a handheld interactive controller provided in an embodiment of the present application.

Reference numerals illustrate:

10-a panel, 11-an avoidance hole on a first plate, 12-an avoidance hole on a second plate and 13-an avoidance hole on a third plate;

20-an inner shell, 21-an avoidance hole on the first shell, 22-an avoidance hole on the second shell, 23-an avoidance hole on the third shell, 24-an avoidance hole,

25-limiting rings;

31-a handle body, 32-a circuit board, 33-a battery and 34-a bracket; 41-conductive springs, 42-side touch pads;

50-a first control key, 51-a first key cap, 52-a first patch key switch;

60-second control keys, 61-second key caps, 62-pressing springs, 63-rockers;

70-custom keys, 71-third key caps, 72-second patch key switches;

81-first pressing key, 82-second pressing key;

91-first touch area, 92-second touch area, 93-third touch area.

Detailed Description

For a clearer understanding of technical features, objects, and effects of embodiments of the present application, a specific implementation of embodiments of the present application will be described with reference to the accompanying drawings.

In this document, "schematic" means "serving as an example, instance, or illustration," and any illustrations, embodiments described herein as "schematic" should not be construed as a more preferred or advantageous solution.

For simplicity of the drawing, only the parts relevant to the present application are schematically shown in each drawing, and they do not represent the actual structure thereof as a product. In addition, for simplicity and ease of understanding, components having the same structure or function in some of the figures are shown only schematically or only one or more of them are labeled.

In order to solve the problem that proposes among the background art, this application provides a handheld interactive controller, handheld interactive controller and VR display device communication connection, can be interactive with VR display device to can make the virtual space that user experience VR display device shows, and have stronger substitution and feel.

Referring to fig. 1, the handheld interactive controller includes a panel 10, a handle body 31, a circuit board 32, and an upper touch pad; the handle body 31 extends in the front-rear direction; the panel 10 is mounted at the front end of the handle body 31 and forms an accommodating space together with the handle body 31, and a first touch area 91 is arranged on the panel 10; the circuit board 32 is located in the accommodation space and electrically connected with the upper touch panel; the upper touch pad is disposed in the first touch area 91; when the finger of the user touches the first touch area 91, the upper touch pad can generate a plurality of first induced electrical signals according to the touch gesture of the finger, and the circuit board 32 obtains the first induced electrical signals.

The upper touch pad can penetrate the panel 10 to accurately detect the effective touch of the finger. The touch gesture of the finger refers to the contact area of the finger with the first touch area 91, different first sensing signals represent different contact areas, after the circuit board 32 obtains the first sensing electric signals, the handheld interaction controller can obtain gesture signals of the finger based on the first sensing electric signals, and transmit the gesture signals to the VR display device, and the VR display device can render corresponding finger gestures in the virtual space based on the gesture signals and in combination with corresponding algorithms. When the hand-held interactive controller is actually used, the thumb can be pressed on the panel 10, and the rest four fingers hold the handle body 31, so that the gesture of the thumb can be rendered in the virtual space.

For ease of description, the side of the panel 10 on which it is located is referred to herein as the upper or front side of the handheld interactive controller, and the side facing away from the panel 10 is referred to as the lower or back side of the handheld interactive controller.

In one possible embodiment, the upper touch pad may be a capacitive touch pad and disposed on an inner surface of the panel 10, and the handheld interactive controller further includes a conductive spring 41 having one end electrically connected to the upper touch pad and the other end electrically connected to the circuit board 32. The conductive spring 41 has conductivity, is capable of transmitting electric power to the upper touch panel, and is capable of transmitting a first induced electric signal. The contact area of the finger and the first touch area 91 is different, and the capacitance change sensed by the capacitive touch pad is different, so that different first sensing electric signals can be generated. Alternatively, the upper touch pad may be a capacitive touch key, disposed inside the panel 10, and may penetrate the panel 10 to accurately detect the effective touch of the finger.

In one possible embodiment, the handheld interactive controller further includes a first sense die disposed on the circuit board 32, the first sense die electrically connected to the conductive spring 41 and transmitting a first sense electrical signal to the circuit board 32. That is, after the first sensing chip obtains the first sensing electric signal, the first sensing electric signal is first transferred to the first sensing chip, and then the first sensing chip transfers the first sensing electric signal to the circuit board 32. Specifically, a core chip may be disposed on the circuit board 32, the first sensing chip is electrically connected with the core chip through a printed circuit on the circuit board 32, the first sensing chip transmits a first sensing electric signal to the core chip through the printed circuit, and then, the handheld interactive controller may transmit the first sensing electric signal to the VR display device. The conductive spring 41 may be soldered on the circuit board 32 and electrically connected to the first sensing chip through a printed circuit on the circuit board 32.

In one possible implementation, the handheld interactive controller further includes an inner housing 20, the inner housing 20 being located in the receiving space and fixedly mounted on the handle body 31, and a circuit board 32 being mounted on the inner housing 20. Thus, the circuit board 32 can be stably mounted in the accommodating space, and the risk of the circuit board 32 being squeezed and collided by other components in the accommodating space can be reduced.

Wherein the circuit board 32 and the panel 10 may be located at opposite sides of the inner housing 20, and the inner housing 20 is provided with the avoidance port 24; the conductive spring 41 passes through the escape opening 24 to be electrically connected with the first touch pad. That is, the panel 10 is located at the outside of the inner case 20, and the circuit board 32 is located at the inside of the inner case 20; the inner shell 20 divides the accommodating space into two parts, the inner shell 20 can play a supporting role for the panel 10, and can also provide a space with better sealing performance for the circuit board 32, so as to further protect the circuit board 32.

Optionally, a limiting ring 25 is disposed on the inner shell 20, the limiting ring 25 surrounds the avoidance opening 24, and the conductive spring 41 sequentially passes through the avoidance opening 24 and the limiting ring 25. In this way, the limiting ring 25 can act as a limiting and guiding function for the conductive spring 41, and can assist the conductive spring 41 to be stably held between the first touch panel and the circuit board 32.

In one possible embodiment, the handheld interactive controller may further include a plurality of manipulation components, and when a thumb of a user contacts one of the plurality of touch components, a contact signal corresponding thereto is generated. The handheld interaction controller can acquire the gesture signal of the thumb based on the contact signal, and send the gesture signal to the VR display device, and the VR display device renders the current gesture of the thumb based on the gesture signal.

Specifically, the plurality of control components may include a first control key 50 and a second control key 60, that is, the first control key 50 and the second control key 60 are both control components. The first and second operating keys 50 and 60 are electrically connected to the circuit board 32. When the user uses the handheld interaction controller, the first control key 50 and the second control key 60 can be controlled respectively, the first control key 50 and the second control key 60 can generate corresponding control electric signals (i.e. contact signals) and transmit the corresponding control electric signals to the circuit board 32, and then the handheld interaction controller can acquire gesture signals of the thumb based on the control electric signals and transmit the gesture signals to the VR display device.

The specific function of the first control key 50 may be set as required, for example, the first control key 50 may be a menu key or a HOME key. The hand-held interactive controllers may be used in pairs, i.e. one hand-held interactive controller is held by the left hand and the right hand, respectively, where one hand-held interactive controller has a menu key and the other hand-held interactive controller has a HOME key.

The specific function of the second control key 60 may be set as required, for example, the second control key 60 may be an a key, a B key, an X key, or a Y key. The hand-held interactive controllers can be used in pairs, that is, one hand-held interactive controller is held by the left hand and the right hand respectively, and at this time, two second control keys 60 are arranged on one hand-held interactive controller, namely an A key and a B key respectively; the other hand-held interactive controller has two second control keys 60, an X key and a Y key.

In one embodiment, the panel 10 is provided with a first plate avoidance hole 11, and the first control key 50 movably passes through the first plate avoidance hole 11, and one end of the first control key is exposed to the outside of the panel 10. When the handheld interactive controller is actually used, the thumb can be made to correspond to the panel 10, and the remaining four fingers hold the handle body 31, so that the first control key 50 can be controlled by the thumb, and based on the control electric signal of the first control key 50, the gesture of the thumb on the first control key 50 can be rendered in the virtual space.

Optionally, the first control key 50 includes a first key cap 51 and a first patch key switch 52, where the first patch key switch 52 is disposed on the circuit board 32, the first key cap 51 penetrates through the first board to avoid the hole 11, one end of the first key cap is exposed outside the panel 10, and the other end of the first key cap is connected with the first patch key switch 52 to drive the first patch key switch 52. That is, the first control key 50 is a pressing key, and after the first key cap 51 is pressed, the first patch key switch 52 can be driven, so that the first patch key switch 52 can generate a corresponding control electric signal and transmit the control electric signal to the circuit board 32. Specifically, the first key cap 51 may be connected to the button housing of the first patch key switch 52 to drive the button housing to act, so that the first patch key switch 52 generates a corresponding control electrical signal.

When the circuit board 32 is located on the inner side of the inner case 20 and the panel 10 is located on the outer side of the inner case 20, the inner case 20 is provided with a first on-case avoidance hole 21, the first on-case avoidance hole 21 corresponds to the first on-board avoidance hole 11 to avoid the first key cap 51, and the first key cap 51 can be connected with the first patch key switch 52 on the circuit board 32.

In one embodiment, the panel 10 is provided with a second plate avoidance hole 12, and the second control key 60 movably passes through the second plate avoidance hole 12, and one end of the second control key is exposed outside the panel 10. When the handheld interactive controller is actually used, the thumb can be made to correspond to the panel 10, and the remaining four fingers hold the handle body 31, so that the second control key 60 can be controlled by the thumb, and according to the control electric signal of the second control key 60, the gesture of the thumb on the second control key 60 can be rendered in the virtual space.

Optionally, the second control key 60 includes a second key cap 61 and a pressing spring 62, the circuit board 32 is provided with a conductive module, one end of the second conductive spring 41 extends into the second key cap 61, the other end is connected to the conductive module, and when the second key cap 61 is pressed, the conductive module is switched to a short circuit state; the panel 10 is provided with a second plate avoidance hole 12 to avoid the second key cap 61, so that the second key cap 61 is exposed outside the panel 10. That is, under the support of the pressing spring 62, the second key cap 61 may be kept at the original position under the action of no external force, when the second control key 60 is pressed, the pressing spring 62 applies pressure to the conductive module, so that the conductive module is short-circuited, the conductive module on the circuit board 32 is short-circuited to generate a corresponding control electric signal, the handheld interaction controller can acquire the gesture signal of the thumb based on the control electric signal and transmit the gesture signal to the VR display device, and the VR display device can render the gesture of the thumb on the second control key 60 in the virtual space.

When the circuit board 32 is located on the inner side of the inner case 20 and the panel 10 is located on the outer side of the inner case 20, the inner case 20 should be provided with the second on-case avoidance hole 24, and the second on-case avoidance hole 22 corresponds to the second on-board avoidance hole 12 to avoid the pressing spring 62 and the second key cap 61.

Optionally, the second manipulating key 60 may include a rocker 63, where the rocker 63 may be rotated circumferentially, and may be pressed, and pressing and rotating the rocker 63 may achieve different manipulation purposes. For example, the target object in the virtual space may be driven to rotate by rotating the joystick 63.

In one possible embodiment, the handheld interactive controller further includes a battery 33, the battery 33 being disposed in the receiving space and electrically connected to the circuit board 32 to provide electrical power to the circuit board 32. Thus, the first sensing chip and the first touch pad can obtain electric energy from the circuit board 32.

The handheld interactive controller provided by the application can further comprise a custom key 70, wherein the custom key 70 is electrically connected with the circuit board 32 and can be set with different functions by a user. For example, the user can set the custom key 70 to have a screenshot function and a screen recording function according to the needs, and the functions can be repeatedly set and canceled, so as to meet the needs of the user under different situations. Custom key 70 may support modes of single click, double click, long press, etc. Therefore, the user diversified requirements can be met, and meanwhile, the number of the function keys on the finger interaction controller is reduced, namely, the space is saved, and meanwhile, the control function requirements are met.

In one possible embodiment, the panel 10 is provided with a third plate through hole 13, and the custom key 70 movably passes through the third plate through hole 13 with one end exposed outside the panel 10. When the handheld interaction controller is actually used, the thumb can be made to correspond to the panel 10, and the rest four fingers hold the handle body 31, so that the user-defined key 70 can be controlled by the thumb, the handheld controller can acquire a gesture signal of the thumb according to the control electric signal of the user-defined key 70 and transmit the gesture signal to the VR display device, and the VR display device can render the gesture of the thumb on the user-defined key 70 in the virtual space based on the gesture signal.

Optionally, the custom key 70 may include a third key cap 71 and a second patch key switch 72, where the second patch key switch 72 is disposed on the circuit board 32, and the second key cap 61 passes through the avoidance hole 13 on the third board, and one end of the second key cap is exposed to the outside of the panel 10, and the other end of the second key cap is connected to the second patch key switch 72 to drive the second patch key switch 72. That is, the custom key 70 is a pressing key, after the third key cap 71 is pressed, the second patch switch can be driven, and the second patch key switch 72 can generate a corresponding electrical signal and transmit the electrical signal to the circuit board 32.

Optionally, when the circuit board 32 and the panel 10 are located on opposite sides of the inner casing 20, that is, when the circuit board 32 is located on the inner side of the inner casing 20 and the panel 10 is located on the outer side of the inner casing 20, the inner casing 20 is provided with a third on-casing avoidance hole 23, the third on-casing avoidance hole 23 corresponds to the third on-board avoidance hole 13 to avoid the third key cap 71, and the third key cap 71 can pass through the third on-casing avoidance hole 23 to be connected with the first patch key switch 52 on the circuit board 32.

Specifically, the third key cap 71 may be connected to the button housing of the second patch key switch 72 to drive the button housing to act, so that the second patch key switch 72 generates a corresponding electrical signal. The patch key switch in the present application is a switch commonly used in the prior art, and the cooperation of the patch key switch and the key cap is a conventional technical means well known to those skilled in the art, and the present application is not repeated.

The application provides a handheld interactive controller can also include two side touch pads 42, the handle body 31 has second touch area 92 and third touch area 93, two side touch pads 42 set up respectively in second touch area 92 and third touch area 93, side touch pad 42 is connected with the circuit board 32 electricity, when the user holds handle body 31, second touch area 92 is used for being touched by the ring finger, third touch area 93 is used for being touched by little finger, two side touch pads 42 can produce second response signal, third response signal respectively, circuit board 32 acquires second response signal and third signal. Then, the handheld interaction controller can acquire the gesture signal of the ring finger based on the second induction electric signal and transmit the gesture signal to the VR display device, and the VR display device can render the gesture of the ring finger in the virtual space based on the gesture signal and combined with a corresponding algorithm; similarly, the handheld interaction controller can acquire the gesture signal of the small finger based on the third induction electric signal and transmit the gesture signal to the VR display device, and the VR display device can render the gesture of the small finger in the virtual space based on the gesture signal and combined with a corresponding algorithm.

In which, referring to fig. 3, two side touch panels 42 may be integrally provided on the same flexible circuit board. Two side touch pads 42 may be provided at the side of the handle body 31, capable of being touched by the tip of a ring finger and the tip of a little finger.

Alternatively, the side touch pad 42 may be a flexible capacitive touch pad, which is adhered to the inner surface of the handle body 31. This makes it possible to easily mount the side touch panel 42. For example, the side touch panel 42 may be a touch FPC panel. The contact areas of the ring finger and the little finger with the handle body 31 are different, and the capacitance changes that the side touch pad 42 can sense are different, so that different second sensing electric signals can be generated.

Optionally, to protect the side touch pad 42, the handheld interactive controller may further include a bracket 34, where the bracket 34 is located in the accommodating space and fixedly mounted on the handle body 31, and the side touch pad 42 is located between the bracket 34 and the handle body 31. The bracket 34 can protect the side touch panel 42, reducing the risk of other components in the accommodation space hitting the side touch panel 42.

In one possible implementation, the handheld interaction controller further includes a first pressing key 81 and a second pressing key 82, both the first pressing key 81 and the second pressing key 82 being electrically connected to the circuit board 32, the first pressing key 81 being for being pressed by the index finger and the second pressing key 82 being for being pressed by the middle finger. The first press key 81 may be used to trigger a start signal and an end signal, and to complete the input of a corresponding operation instruction by the user. Similarly, a second press of key 82 may be used to trigger a start signal and an end signal, as well as to complete the input of a corresponding operating instruction by the user. When the first pressing key 81 is pressed by the index finger, the circuit board 32 may obtain a corresponding first instruction signal, and the VR display device may render the gesture of the index finger in the virtual space to perform the action corresponding to the first instruction signal based on the first instruction signal, and may also render the gesture of the index finger pressed on the first pressing key 81 in the virtual space in combination with a corresponding algorithm. Similarly, when the second pressing key 82 is pressed by the index finger, the circuit board 32 may obtain a corresponding second instruction signal, and the VR display device may render, in the virtual space, a gesture of the middle finger performing a corresponding action of the second instruction signal based on the second instruction signal, and may also render, in the virtual space, a gesture of the corresponding index finger pressing on the second pressing key 82 in combination with a corresponding algorithm.

Wherein, the first pressing keys 81 may be all disposed at the back of the handle body 31, the second pressing keys 82 may be disposed at the side of the handle body 31, and the first pressing keys 81 are located in front of the second pressing keys 82. Thus, when the handle body 31 is held, the index finger is convenient to stay on the first pressing key 81, and when the interaction control is performed, the index finger is convenient to quickly act on the first pressing key 81; the middle finger is convenient to stay on the second pressing key 82, and the middle finger can conveniently and rapidly act on the second pressing key 82 when interactive control is performed.

In one possible implementation, the first pressing key 81 may be provided with a first touch pad capable of sensing finger touch, and the first touch pad is electrically connected to the circuit board 32. So, when the first key 81 is pressed in the forefinger touch, the first touch pad can sense the forefinger to produce the forefinger response signal, and the circuit board 32 can acquire the forefinger response signal, and handheld interactive controller can acquire the gesture signal of forefinger based on the forefinger response signal, and gives VR display device with gesture signal transfer, and VR display device can render the gesture of forefinger in virtual space based on this gesture signal and combines corresponding algorithm.

In one possible embodiment, the first touch pad may be a capacitive touch pad and is disposed inside the first press key 81. So, when the first key 81 is pressed to the forefinger, the contact area of the forefinger and the first key 81 is different, the capacitance change of the first touch pad is different, the circuit board 32 can obtain different forefinger sensing signals and transmit the signals to the VR display device, and the VR display device can render different postures of the forefinger in the virtual space based on different forefinger sensing signals and combining corresponding algorithms.

Optionally, the first pressing key 81 includes a first pressing cap, and the first touch pad may be disposed on an inner surface of the first pressing cap, and the first touch pad may accurately detect an effective touch of the finger through the first pressing cap. For example, the first touch pad may be a capacitive touch key.

Optionally, the first touch pad can be a flexible touch pad, so that the first touch pad can be conveniently adhered to the inner surface of the first pressing cap, and the assembly difficulty is reduced.

In one possible implementation, a second touch pad capable of sensing finger touches may be provided on the second push key 82, the second touch pad being electrically connected to the circuit board 32. Thus, when the middle finger touches the second pressing key 82, the second touch pad can sense the middle finger and generate a middle finger sensing signal, the circuit board 32 can acquire the middle finger sensing signal, the handheld controller can acquire the posture signal of the middle finger based on the middle finger sensing signal and transmit the posture signal to the VR display device, and the VR display device can render the posture of the middle finger in the virtual space based on the posture signal and in combination with the corresponding algorithm.

In one possible embodiment, the second touch pad may be a capacitive touch pad and is disposed inside the second press key 82. Thus, when the index finger touches the second pressing key 82, the contact area between the index finger and the second pressing key 82 is different, the capacitance change of the second touch pad is different, and the circuit board 32 can obtain different middle finger sensing signals and transmit the different middle finger sensing signals to the VR display device, and the VR display device can render different postures of the middle finger in the virtual space based on the different middle finger sensing signals and the corresponding algorithms.

Alternatively, the second touch pad may include a second pressing cap, and the second touch pad may be disposed on an inner surface of the second pressing cap, and may penetrate the second pressing key 82 to accurately detect an effective touch of the finger. For example, the second touch pad may be a capacitive touch key.

Optionally, the second touch pad can be a flexible touch pad, so that the second touch pad can be conveniently adhered to the inner surface of the second pressing cap, and the assembly difficulty is reduced.

Wherein, the circuit board 32 may be provided with a core chip, and the core chip may obtain the gesture signal of the thumb based on at least one of the contact signal and the first induced electrical signal; the core chip can obtain the attitude signal of the ring finger through the second induction electric signal; the core chip can acquire the gesture signal of the small finger based on the third induction electric signal; the core chip can acquire the gesture signal of the index finger based on the index finger sensing signal; the core chip can acquire the posture signal of the middle finger based on the middle finger sensing signal. The core chip is in communication connection with the VR display device to communicate the gesture signal to the VR display device.

The foregoing is illustrative of the embodiments of the present application and is not to be construed as limiting the scope of the embodiments of the present application. Any equivalent alterations, modifications and combinations thereof will be effected by those skilled in the art without departing from the spirit and principles of the embodiments of this application, and it is intended to be within the scope of the embodiments of this application.

It should be understood that although the present disclosure has been described in terms of various embodiments, not every embodiment is provided with a separate technical solution, and this description is for clarity only, and those skilled in the art should consider the disclosure as a whole, and the technical solutions in the various embodiments may be combined appropriately to form other embodiments that will be understood by those skilled in the art. It should be understood that although the present disclosure has been described in terms of various embodiments, not every embodiment is provided with a separate technical solution, and this description is for clarity only, and those skilled in the art should consider the disclosure as a whole, and the technical solutions in the various embodiments may be combined appropriately to form other embodiments that will be understood by those skilled in the art.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises an element.

Claims (10)

1. A handheld interaction controller in communication with a VR display device, the handheld interaction controller comprising a faceplate (10), a handle body (31), a circuit board (32) and a custom key (70);

the handle body (31) extends in the front-rear direction;

the panel (10) is arranged at the front end of the handle body (31) and forms an accommodating space together with the handle body (31);

the circuit board (32) is positioned in the accommodating space and is electrically connected with the custom key (70);

the custom keys (70) can be set by a user to different functions.

2. The hand-held interactive controller according to claim 1, wherein a third board avoidance hole (13) is provided in the panel (10), and the custom key (70) movably passes through the third board avoidance hole (13), and one end of the custom key is exposed outside the panel (10).

3. The hand-held interactive controller according to claim 2, wherein the custom key (70) comprises a third key cap (71) and a second patch key switch (72), the second patch key switch (72) is arranged on the circuit board (32), the third key cap (71) passes through the avoidance hole (13) on the third board, one end of the third key cap is exposed out of the panel (10), and the other end of the third key cap is connected with the second patch key switch (72) so as to drive the second patch key switch (72).

4. A hand-held interaction controller according to claim 3, further comprising an inner housing (20), said inner housing (20) being located in said receiving space and fixedly mounted on said handle body (31), said circuit board (32) being mounted on said inner housing (20).

5. The handheld interaction controller according to claim 4, wherein the circuit board (32) and the panel (10) are located on opposite sides of the inner case (20), a third case upper avoidance hole (23) is formed in the inner case (20), the third case upper avoidance hole (23) corresponds to the third case upper avoidance hole (13), and the third key cap (71) passes through the third case upper avoidance hole (23) to be connected with the second patch key switch (72).

6. The hand-held interactive controller according to claim 4, further comprising an upper touch pad provided in a first touch area (91) of the panel (10), the upper touch pad being capable of generating a plurality of first induced electrical signals according to a touch gesture of a finger of a user when the finger touches the first touch area (91), the circuit board (32) acquiring the first induced electrical signals.

7. The hand-held interactive controller according to claim 6, characterized in that the upper touch pad is a capacitive touch pad and is arranged on the inner surface of the panel (10), the hand-held interactive controller further comprising a conductive spring (41), one end of the conductive spring (41) being electrically connected to the upper touch pad and the other end being electrically connected to the circuit board (32).

8. The hand-held interactive controller according to claim 7, characterized in that the inner housing (20) is provided with a relief opening (24); the conductive spring (41) passes through the escape opening (24) to be electrically connected with the upper touch panel.

9. The handheld interaction controller according to claim 1, further comprising a first manipulation key (50) and a second manipulation key (60) for being manipulated by a thumb, the first manipulation key (50) and the second manipulation key (60) being both electrically connected with the circuit board (32).

10. The hand-held interactive controller according to claim 1, wherein the panel (10) is provided with a second on-board avoidance hole (12), and the second control key (60) movably passes through the second on-board avoidance hole (12), and one end of the second control key is exposed outside the panel (10);

the panel (10) is provided with a first plate avoidance hole (11), the first control key (50) movably penetrates through the first plate avoidance hole (11), and one end of the first control key is exposed out of the panel (10).