CN209446888U - Virtual reality head-mounted display apparatus - Google Patents

Abstract

The utility model discloses a kind of virtual reality head-mounted display apparatus, including spectacle frame, lighting apparatus component and headset assembly, lighting apparatus component includes ray machine mould group, ray machine shell and mainboard, the temple of ray machine shell and spectacle frame is movably connected, ray machine mould group is installed on the front end of ray machine shell, mainboard is located in ray machine shell and is electrically connected with ray machine mould group, and headset assembly is located in temple, and is electrically connected by signal wire with mainboard.Virtual reality head-mounted display apparatus according to the present utility model has good use reliability and applicability, improves the comfort of user.

Description

Virtual reality head-mounted display apparatus

Technical field

The utility model relates to technical field of virtual reality, more particularly, to a kind of virtual reality head-mounted display apparatus.

Background technique

As augmented reality develops, by " seamless " the integrated new technology of real world information and virtual world information, Virtual reality is the synthesis of multiple technologies, including real-time three-dimensional computer graphics techniques, wide-angle (the wide visual field) stereo display technique, Feedback, stereo, network transmission, voice input and output skill are felt to tracking technique and tactile/power of observer's head, eye and hand Art, in the augmented reality of visualization, user utilizes virtual reality glasses display, real world and the multiple conjunction of computer graphic At together.

In the related technology, in virtual reality head-mounted display apparatus such as virtual reality glasses, the usage experience of user Less effective.

Utility model content

The utility model aims to solve at least one of the technical problems existing in the prior art.For this purpose, the utility model mentions A kind of virtual reality head-mounted display apparatus out, the virtual head-mounted display apparatus have good use reliability and are applicable in Property, improve the comfort of user.

According to the virtual reality head-mounted display apparatus of the utility model embodiment, comprising: spectacle frame, the spectacle frame packet Include temple；Lighting apparatus component, the lighting apparatus component include ray machine mould group, ray machine shell and mainboard, the ray machine shell with it is described Temple is movably connected, and the ray machine mould group is installed on the front end of the ray machine shell, and the mainboard is located in the ray machine shell And it is electrically connected with the ray machine mould group；And headset assembly, the headset assembly are located in the temple, and by signal wire with The mainboard electrical connection.

According to the virtual reality head-mounted display apparatus of the utility model embodiment, pass through setting lighting apparatus component and headphone set Part, and headset assembly is electrically connected by signal wire with the mainboard of lighting apparatus component, realize ray machine mould group and headset assembly data Synchronization, and ensure that the stable connection between mainboard and headset assembly, reliable, improve virtual reality head-mounted display apparatus Use reliability；By the way that ray machine shell is movably connected with temple, so that user is set being shown using virtual reality wear-type The position of adjustable ray machine mould group improves use in order to which user preferably receives the information of ray machine mould group in standby process The comfort at family meets the use demand of different user, improves the applicability of virtual reality head-mounted display apparatus.

Some embodiments according to the present utility model, the temple include temple ontology, temple switch block and connection structure, institute It states temple switch block to be rotatably arranged on the temple ontology by the connection structure, the rear end of the ray machine shell is installed on The temple switch block.

Some embodiments according to the present utility model, have installation slotted eye on the temple switch block, in the installation slotted eye Be equipped with metal nuts, one end of the signal wire locked in the metal nuts by screw and with the metal nuts electricity Connection, the lighting apparatus component further include playing needle, and described one end for playing needle is electrically connected with the mainboard, the other end stretches out the ray machine Shell is electrically connected with the metal nuts.

Some embodiments according to the present utility model have sliding block and limit tooth socket, the temple on the temple switch block The cambered way along inward-outward direction perforation is formed on ontology, the sliding block cooperation slides in the cambered way, the mirror Leg further include: the first locating part and the first elastic component, first locating part are located at the outside of the cambered way, along the arc The radial direction of shape slideway is movable, has retention bead, the first limit described in first resilient element urges on first locating part Position part, so that the retention bead and limit tooth socket limit cooperate.

Some embodiments according to the present utility model are formed with the heavy platform inwardly concaved, institute on the outside of the temple switch block The perforation being formed in heavy platform along inward-outward direction perforation is stated, the installation along inward-outward direction perforation is formed on the temple ontology Hole, the connection structure include: connector and card-bit part, and the outer end of the connector cooperates the connection in the heavy platform The inner end of part inwardly sequentially passes through the perforation and the mounting hole, and through card-bit part limit in the mounting hole Side.

Some embodiments according to the present utility model, the outer end configuration of the connector are adapted with the shape of the heavy platform And to be non-circular, so that the connector is rotated with the temple switch block.

Some embodiments according to the present utility model, have inserting chamber on the temple switch block, after the ray machine shell Hold inserting intracavitary in the inserting.

The rear inside of some embodiments according to the present utility model, the ray machine shell is formed with the limit being outwardly concaved Hole has the centre bore penetrated through along inward-outward direction, the connection structure further include: the second locating part, second on the connector Elastic component and locking position, second elastic component are located in the centre bore, and the locking position is located at second elastic component It inside and is threadedly coupled with the centre bore, second locating part is located at the outside of second elastic component, second limit The inner end limit of position part is located in the centre bore, and the outer end of second locating part is suitable for being pierced by the centre bore, institute outward State the second elastic component along inward-outward direction it is scalable with often push the outer end of second locating part be pierced by the centre bore and Cooperation is in the limit hole.

Some embodiments according to the present utility model, the headset assembly are osteoacusis component, and the signal wire is bone biography Signal wire is led, the osteoacusis component includes osteoacusis shell and osteoacusis change-over panel, and the osteoacusis shell is located at the mirror On leg, the osteoacusis change-over panel is located in the osteoacusis shell, the osteoacusis signal wire with the headset assembly phase One end even penetrates in the osteoacusis shell and is fastened on the osteoacusis change-over panel.

Some embodiments according to the present utility model, the osteoacusis component further includes rotational structure, the rotational structure It is pivotally attached to the temple, the osteoacusis shell is located in the rotational structure, wherein the rotational structure includes: One structural member, the second structural member and torsional spring, the first structure part are fixed in the temple, one end of second structural member It is pivotally attached in the temple and with the first structure part, the other end of second structural member is pierced by the temple It is connected outside and with the osteoacusis shell, the torsional spring cooperation is between the first structure part and second structural member and normal Second structural member is pushed to rotate relative to the first structure part towards preset direction.

The additional aspect and advantage of the utility model will be set forth in part in the description, partially will be from following description In become obvious, or recognized by the practice of the utility model.

Detailed description of the invention

The above-mentioned and/or additional aspect and advantage of the utility model from the description of the embodiment in conjunction with the following figures will Become obvious and be readily appreciated that, in which:

Fig. 1 is the structural schematic diagram according to the virtual reality head-mounted display apparatus of the utility model embodiment；

Fig. 2 is the partial structural diagram of virtual reality head-mounted display apparatus shown in Fig. 1；

Fig. 3 is the explosive view of virtual reality head-mounted display apparatus partial structurtes shown in Fig. 2；

Fig. 4 is the enlarged drawing in the portion A that Fig. 3 centre circle shows；

Fig. 5 is the structural schematic diagram of connector shown in Fig. 3；

Fig. 6 is the enlarged drawing in the portion B that Fig. 3 centre circle shows；

Fig. 7 is the structural schematic diagram of temple switch block shown in Fig. 3；

Fig. 8 is the structural schematic diagram of signal wire shown in Fig. 3；

Fig. 9 is the cross-sectional view of virtual reality head-mounted display apparatus partial structurtes shown in Fig. 2；

Figure 10 is the cross-sectional view of headset assembly shown in Fig. 2；

Figure 11 is the partial structural diagram of headset assembly shown in Fig. 2；

Figure 12 is the partial structural diagram of virtual reality head-mounted display apparatus shown in Fig. 2.

Appended drawing reference:

Virtual reality head-mounted display apparatus 100；

Spectacle frame 1；Temple 11；Frame 12；

Temple ontology 111；Cambered way 111a；Mounting hole 111b；Escape groove 111c；Limiting tooth 111d；

Temple switch block 112；Installation slotted eye 112a；Metal nuts 112b；Screw 112c；Sliding block 112d；

Limit tooth socket 112e；Heavy platform 112f；Perforate 112g；Inserting chamber 112h；

Connection structure 113；Connector 1131；Centre bore 1131a；Detent slot 1131b；Second defining flange 1131c；

Card-bit part 1132；Second locating part 1133；Second elastic component 1134；Locking position 1135；

First locating part 114；Retention bead 114a；

First elastic component 115；Temple inner support 116；

Lighting apparatus component 2；Ray machine mould group 21；Ray machine shell 22；Limit hole 22a；Mainboard 23；Play needle 24；

First ray machine shell 221；Second ray machine shell 222；

Headset assembly 3；Osteoacusis component 30；Osteoacusis shell 31；Osteoacusis change-over panel 32；Rotational structure 33；

First osteoacusis shell 311；Second osteoacusis shell 312；

First structure part 331；Second structural member 332；Torsional spring 333；Connecting shaft 332b；

Signal wire 4；Osteoacusis signal wire 40.

Specific embodiment

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, and is only used for explaining the utility model, and should not be understood as to the utility model Limitation.

Below with reference to Fig. 1-Figure 12 description according to the virtual reality head-mounted display apparatus 100 of the utility model embodiment. Optionally, virtual reality head-mounted display apparatus 100 is virtual reality glasses.

As shown in Fig. 1-Figure 12, according to the virtual reality head-mounted display apparatus 100 of the utility model embodiment, including eye Mirror holder 1, lighting apparatus component 2 and headset assembly 3.

Spectacle frame 1 includes temple 11, and lighting apparatus component 2 includes ray machine mould group 21, ray machine shell 22 and mainboard 23, ray machine Shell 22 is movably connected with temple 11, and ray machine mould group 21 is installed on the front end of ray machine shell 22, and mainboard 23 is located at ray machine shell 22 Interior and mainboard 23 is electrically connected with ray machine mould group 21, and headset assembly 3 is located in temple 11, and headset assembly 3 passes through signal wire 4 and master Plate 23 is electrically connected.

For example, user can wear virtual reality head-mounted display apparatus by spectacle frame 1 as shown in Fig. 1-Figure 12 100, so that virtual reality head-mounted display apparatus 100 is fixed on the head of user, certainly, user can also pass through spectacle frame 1 Virtual reality head-mounted display apparatus 100 is removed from head.

Lighting apparatus component 2 and headset assembly 3 can be located in temple 11, be set when user's wearing virtual reality wear-type is shown When standby 100, ray machine mould group 21 can be corresponded to positioned at the front of user's glasses, and earphone can correspond to the ear of user, due to master Plate 23 is electrically connected with ray machine mould group 21 and mainboard 23 is electrically connected by signal wire 4 with headset assembly 3, and mainboard 23 can be to ray machine Mould group 21 transmits data and mainboard 23 can also transmit data to headset assembly 3, realizes ray machine mould group 21 and headset assembly 3 The synchronization of data, the information that user can receive the information of the transmitting of ray machine mould group 21 simultaneously at this time and headset assembly 3 transmits, such as User can receive the information such as the information such as the image of ray machine mould group 21, the sound that also can receive headset assembly 3, improve user Experience effect, and 100 structure of virtual reality head-mounted display apparatus is simple, is easy to implement, and has good practicability, guarantees Stable connection between mainboard 23 and headset assembly 3, reliable, the use for improving virtual reality head-mounted display apparatus 100 can By property.

Wherein, the rear end of ray machine shell 22 can be movably connected with temple 11, show when user wears virtual reality wear-type When showing equipment 100, the position of ray machine mould group 21 can be adjusted, by adjusting ray machine shell 22 so as to adjust ray machine mould group 21 The position of display information ensure that the comfort of user to meet the different perspectives demand of different user, while improve virtual The applicability of real head-mounted display apparatus 100.For example, the rear end of ray machine shell 22 can be rotatedly connected with temple 11, so that The front end of ray machine shell 22 can drive ray machine mould group 21 around the rear end thereof of ray machine shell 22, to adjust the transmitting of ray machine mould group 21 Image position, meet the different demands of different user.

It is understood that the quantity of lighting apparatus component 2 and the quantity of headset assembly 3 can specifically be set according to practical application It sets, lighting apparatus component 2 can be one or more, and headset assembly 3 can be one or more.For example, in the example of fig. 1, mirror Leg 11 can be two, and each temple 11 can all have connecting pin and free end, and the connecting pin of two temples 11 can pass through Frame 12 is connected, and lighting apparatus component 2 and headset assembly 3 can be respectively two at this time, two lighting apparatus components 2 and two headset assemblies 3 are arranged in a one-to-one correspondence respectively, and one of them in two lighting apparatus components 2 and corresponding headset assembly 3 can be each provided at two In one of them in temple 11, another in two lighting apparatus components 2 can be each provided at two mirrors with corresponding headset assembly 3 On another in leg 11；Certainly, lighting apparatus component 2 and headset assembly 3 can also be respectively one, the lighting apparatus component 2 and the ear Thermomechanical components 3 are correspondingly arranged.

Here, it should be noted that direction " preceding " can refer to virtual reality head-mounted display apparatus 100 in user's wearing When, the direction that faces of user, opposite direction is defined as "inner".In the description of the present invention, the meaning of " plurality " is Two or more.

According to the virtual reality head-mounted display apparatus 100 of the utility model embodiment, pass through setting lighting apparatus component 2 and ear Thermomechanical components 3, and headset assembly 3 is electrically connected by signal wire 4 with the mainboard 23 of lighting apparatus component 2, realize 21 He of ray machine mould group The synchronization of 3 data of headset assembly, and ensure that the stable connection between mainboard 23 and headset assembly 3, reliable, it improves virtual existing The use reliability of real head-mounted display apparatus 100；By the way that ray machine shell 22 and temple 11 are movably connected, so that user makes With the position of adjustable ray machine mould group 21 during virtual reality head-mounted display apparatus 100, preferably in order to user The information for receiving ray machine mould group 21, improves the comfort of user, meets the use demand of different user, improves virtual existing The applicability of real head-mounted display apparatus 100.

In some specific embodiments of the utility model, temple 11 includes temple ontology 111, temple switch block 112 and connects Binding structure 113, temple switch block 112 is rotatably arranged on temple ontology 111 by connection structure 113, after ray machine shell 22 End is installed on temple switch block 112.For example, as shown in Figures 2 and 3, temple switch block 112 can be located at mirror by connection structure 113 The outside of leg ontology 111, in order to the installation of ray machine shell 22, since temple switch block 112 can be 111 turns relative to temple ontology It is dynamic, so that the front end of ray machine shell 22 can drive ray machine mould group 21 around the rear end thereof of ray machine shell 22, to adjust ray machine mould The position of the image of 21 transmitting of group, meets the different demands of different user, ensure that virtual reality head-mounted display apparatus 100 Applicability.

In the example of Fig. 1-Fig. 3, temple ontology 111 can extend along the longitudinal direction, and connection structure 113 can be along left and right Direction is threaded through on temple ontology 111 and temple switch block 112, allows temple switch block 112 around the central axis of connection structure 113 Line relative to temple ontology 111 rotate, thus ray machine mould group 21 can around connection structure 113 central axis relative to temple sheet Body 111 rotates, to adjust the position of image, such as the position etc. of adjustable image in above-below direction.Temple ontology 111 it is interior Side can be equipped with temple inner support 116, and temple inner support 116 can limit installation space between temple ontology 111 jointly, The components such as connection structure 113, signal wire 4 can be blocked simultaneously, avoid the exposed of above-mentioned component.Wherein, ray machine mould group 21 rotational angle can be set to 25 °, but not limited to this

Certainly, the movable connection method between ray machine shell 22 and temple 11 is not limited to be rotatedly connected, and can also be other Can be relatively moved between mode, such as ray machine shell 22 and temple 11 or ray machine shell 22 and temple 11 between can phase To movement (including mobile and rotation) etc..

Here, it should be noted that direction "outside" can refer to virtual reality head-mounted display apparatus 100 in user's wearing When, the direction far from user, for example, working as temple 11 two, two temples 11 are suitable for respectively corresponding two ears for hanging user On, the direction of two temples 11 away from each other can be direction "outside" at this time.

Further, there is installation slotted eye 112a on temple switch block 112, be equipped with metal nuts in installation slotted eye 112a One end of 112b, signal wire 4 are locked on metal nuts 112b by screw 112c and one end of signal wire 4 and metal nuts 112b electrical connection, lighting apparatus component 2 further include playing needle 24, and one end of bullet needle 24 is electrically connected with mainboard 23, the other end stretches out ray machine shell Body 22 is electrically connected with metal nuts 112b.Referring to shown in Fig. 3, Fig. 4, Fig. 7 and Fig. 9, installation slotted eye 112a can be in left-right direction Through temple switch block 112, metal nuts 112b can be threaded through in installation slotted eye 112a with ecto-entad, and screw 112c can be with gold Belong to nut 112b to be threadedly coupled so that one end of signal wire 4 to be fixed on metal nuts 112b, realizes signal wire 4 and metal nuts Electrical connection between 112b；Playing needle 24 can be located on mainboard 23, and metal nuts 112b can be by playing 23 electricity of needle 24 and mainboard Connection, to realize being electrically connected between above-mentioned one end of signal wire 4 and mainboard 23, leads to the signal on mainboard 23 The transmission of signal wire 4 is crossed, and further ensures the reliability being electrically connected between signal wire 4 and mainboard 23.

In the example of Fig. 3, Fig. 4, Fig. 7 and Fig. 9, the outer end of metal nuts 112b is formed as closed end, and metal nuts The outer end of 112b has the first defining flange, when metal nuts 112b ecto-entad is threaded through in installation slotted eye 112a, first Defining flange can be only against on the marginal portion of installation slotted eye 112a, to limit the continuation of metal nuts 112b ecto-entad It is mobile；The inner end of metal nuts 112b has internal screw thread to cooperate with screw 112c, so that one end of signal wire 4 is fixed on gold Belong on nut 112b.Bullet needle 24, which can be fixed, to be located on mainboard 23, and playing needle 24 has pars contractilis, and pars contractilis can inwardly stretch out light Casing body 22 with metal nuts 112b often only support, further ensure be electrically connected between mainboard 23 and metal nuts 112b can By property.It could be formed with the escape groove 111c of perforation on temple ontology 111, metal nuts 112b can be corresponded to positioned at escape groove In 111c, so that lighting apparatus component 2 is during rotation, metal nuts 112b can slide in escape groove 111c, guarantee temple Smooth rotation of the switch block 112 relative to temple ontology 111.Wherein, metal nuts 112b is chosen as copper nut.

Optionally, there is sliding block 112d and limit tooth socket 112e on temple switch block 112, be formed with edge on temple ontology 111 The cambered way 111a of inward-outward direction perforation, sliding block 112d cooperation slide in cambered way 111a, and temple 11 further includes first Locating part 114 and the first elastic component 115, the first locating part 114 be located at the outside of cambered way 111a, arcuately slideway 111a It is radial movable, there is retention bead 114a on the first locating part 114, the first elastic component 115 pushes the first locating part 114, with Cooperate retention bead 114a and limit tooth socket 112e limit.

For example, as shown in Fig. 3, Fig. 4, Fig. 7 and Figure 12, sliding block 112d can be protruded into ecto-entad in cambered way 111a with Cooperate with cambered way 111a, and circumferential direction of the sliding block 112d in cambered way 111a along arc top slideway slides, as sliding block 112d When being contacted with the side wall at the circumferential both ends of cambered way 111a, due to the backstop action of cambered way 111a side wall, sliding block 112d It cannot continue the end motion to cambered way 111a, to effectively define temple switch block 112 relative to temple ontology 111 Rotational angle, and sliding block 112d has the function of positioning convenient for temple switch block 112 and the assembly of temple ontology 111 simultaneously.

First elastic component 115 can be located between the first locating part 114 and temple ontology 111, i.e. the first elastic component 115 One end is only supported with temple ontology 111, the other end of the first elastic component 115 is only supported with the first locating part 114, so that the first locating part 114 can arcuately slideway 111a move radially, wherein the first elastic component 115 can be in compressive state always, so that One elastic component 115 often pushes the first locating part 114, so that retention bead 114a often keeps cooperating with limit tooth socket 112e, thus When ray machine mould group 21 is adjusted to suitable position, the cooperation that can pass through between retention bead 114a and limit tooth socket 112e is kept Limit between temple ontology 111 and temple switch block 112 ensure that ray machine mould group 21 is in the stability of adjustment position.

With reference to the example of Fig. 3, Fig. 4, Fig. 7 and Figure 12, cambered way 111a can be located at connection structure 113 and escape groove The front side of 111c, escape groove 111c in the longitudinal direction can be between cambered way 111a and connection structures 113, limiting tooth Slot 112e can be located on the periphery wall of temple switch block 112, can on the limit tooth socket 112e of cambered way 111a opposite wall surface To be formed with and limit the limiting tooth 111d of tooth socket 112e cooperation, guarantee the stability of temple switch block 112 during rotation.Limit Position tooth socket 112e can be it is multiple, multiple limit tooth socket 112e can the circumferential direction of arcuately slideway 111a be arranged successively, limit convex Playing 114a can be at least one, so that retention bead 114a, which can be corresponded to, to be matched after temple switch block 112 is rotated to complete adjustment It closes at least one of multiple limit tooth socket 112e, realizes limit of the temple switch block 112 relative to temple ontology 111, It ensure that the positional stability of ray machine mould group 21.

Specifically, the outside of temple switch block 112 is formed with the heavy platform 112f inwardly concaved, is formed on heavy platform 112f along interior The perforation 112g of outside direction perforation is formed with the mounting hole 111b along inward-outward direction perforation, connection structure on temple ontology 111 113 include connector 1131 and card-bit part 1132, and the outer end of connector 1131 cooperates in heavy platform 112f, connector 1131 it is interior End inwardly sequentially passes through perforation 112g and mounting hole 111b, and the inner end of connector 1131 is being installed by the limit of card-bit part 1132 The inside of hole 111b.

For example, heavy platform 112f can be inwardly concaved by the portions of lateral side of temple switch block 112 as shown in Fig. 3-Fig. 5, Fig. 7 It is formed, connector 1131 can sequentially pass through perforation 112g and mounting hole 111b with ecto-entad, so that the outer end of connector 1131 Cooperation is in heavy platform 112f, the inner end of connector 1131 can be protruded into temple ontology 111 to be connected by the limitation of card-bit part 1132 The movement of fitting 1131 in the lateral direction, card-bit part 1132 can be only against on the inner wall of temple ontology 111.Hereby it is achieved that The installation of temple switch block 112 ensure that temple switch block 112 can be rotated relative to temple ontology 111, and structure is simple, assembling It is convenient.

In the example of Fig. 3, Fig. 5, the outer end of connector 1131 could be formed with the second defining flange 1131c, work as connection When part 1131 is threaded through in perforation 112g and mounting hole 111b, the second defining flange 1131c can only be against enclosing for heavy platform 112f On the marginal portion of perforation 112g, it is displaced outwardly with limiting temple switch block 112；The inner end of connector 1131 could be formed with The detent slot 1131b that card-bit part 1132 cooperates, to limit the movement of connector 1131.

In some alternative embodiments of the utility model, as shown in Figure 3 and Figure 5, the outer end configuration of connector 1131 with The shape of heavy platform 112f be adapted and the outer end configuration of connector 1131 be it is non-circular so that connector 1131 is with temple switch block 112 rotations, the cross section outer profile of the second defining flange 1131c can be formed as non-circular at this time.

In other alternative embodiments of the utility model, the outer end configuration of connector 1131 may be formed as justifying Shape, connector 1131 can not be rotated with temple switch block 112 at this time.

Optionally, there is inserting chamber 112h, the rear end inserting of ray machine shell 22 is in inserting chamber 112h on temple switch block 112 It is interior.For example, inserting chamber 112h can inwardly concave shape by the portion outboard wall of temple switch block 112 in the example of Fig. 7, Fig. 9 At, the front side of inserting chamber 112h can open wide setting, in order to ray machine shell 22 rear end inserting from front to back in inserting chamber In 112h, the packaging efficiency of virtual reality head-mounted display apparatus 100 is improved.

Further, as shown in figure 3, the rear inside of ray machine shell 22 is formed with the limit hole 22a being outwardly concaved, connection There is the centre bore 1131a penetrated through along inward-outward direction, connection structure 113 further includes the second locating part 1133, second on part 1131 Elastic component 1134 and locking position 1135, the second elastic component 1134 are located in centre bore 1131a, and the both ends of the second elastic component 1134 can With respectively only be against in the second locating part 1133 and locking position 1135, locking position 1135 be located at the inside of the second elastic component 1134 and Locking position 1135 is threadedly coupled with centre bore 1131a, to limit one only supported with 1135 phase of locking position of the second elastic component 1134 The position at end, the second locating part 1133 are located at the outside of the second elastic component 1134, and the inner end limit of the second locating part 1133 is located at In centre bore 1131a, the outer end of the second locating part 1133 is suitable for being pierced by centre bore 1131a outward, and the second elastic component 1134 is along interior Outside direction is scalable often to push the outer end of the second locating part 1133 to be pierced by the outer end of centre bore 1131a and the second locating part 1133 Cooperation, to limit movement of the ray machine shell 22 in the longitudinal direction relative to temple 11, ensure that ray machine shell in limit hole 22a Installation reliability between body 22 and temple 11 avoids falling off for lighting apparatus component 2.

In the example of fig. 3, the inner end of the second locating part 1133 can be formed as positive stop lug boss to be only against centre bore On the wall surface of 1131a, the second locating part 1133 is avoided to be moved to outside centre bore 1131a, the outer end of the second locating part 1133 can be with It is generally formed into hemispherical configuration, under the premise of guaranteeing that ray machine shell 22 is installed reliably, is easy to implement ray machine shell 22 and mirror It is detachable connected between leg 11.

In some alternative embodiments of the utility model, headset assembly 3 is osteoacusis component 30, and signal wire 4 is bone biography Signal wire 40 is led, structure is simple, practical, has good reliability；Osteoacusis component 30 includes osteoacusis shell 31 and osteoacusis change-over panel 32, osteoacusis shell 31 be located in temple 11, osteoacusis change-over panel 32 is located in osteoacusis shell 31, The one end of osteoacusis signal wire 40 being connected with headset assembly 3 penetrates in osteoacusis shell 31 and is fastened on osteoacusis change-over panel 32 On.For example, osteoacusis shell 31 can be located at the lower section of temple 11, as shown in Fig. 2, Fig. 3, Figure 10 and Figure 11 in order to user Wear virtual reality head-mounted display apparatus 100 when, headset assembly 3 correspond to user ear；Osteoacusis signal and earphone The connected one end of component 3 can be pierced by temple 11 and incoming osteoacusis shell 31, and can be formed on osteoacusis change-over panel 32 There is mating groove, above-mentioned one end of osteoacusis signal wire 40 can cooperate in mating groove, convenient for the quick of osteoacusis signal wire 40 Assembly.

Further, osteoacusis component 30 further includes rotational structure 33, and rotational structure 33 is pivotally attached to temple 11, and bone passes It leads shell 31 to be located in rotational structure 33, wherein rotational structure 33 includes first structure part 331, the second structural member 332 and torsional spring 333, first structure part 331 is fixed in temple 11, and one end of the second structural member 332 is located in temple 11 and the second structural member 332 one end is pivotally attached to first structure part 331, and the other end of the second structural member 332 is pierced by outside temple 11 and the second knot The other end of component 332 is connected with osteoacusis shell 31, the cooperation of torsional spring 333 first structure part 331 and the second structural member 332 it Between and torsional spring 333 often push the second structural member 332 with respect to first structure part 331 towards preset direction rotation.

For example, first structure part 331 can be fixed on temple sheet by fastener as shown in Fig. 3, Fig. 6, Figure 10 and Figure 12 On body 111, one end of the second structural member 332 can be protruded into temple 11 and is pivotally attached to logical pivotal axis with first structure part 331, The other end of second structural member 332 can stretch out temple 11 to be connected with osteoacusis shell 31, so that osteoacusis shell 31 passes through Pivotal axis can be rotated relative to temple 11；Torsional spring 333 can be set on pivotal axis, when torsional spring 333 deforms, torsional spring 333 be to restPose, and the second structural member 332 can be pushed to rotate relative to first structure part 331 towards preset direction, from And osteoacusis component 30 is pushed to rotate relative to temple 11, so that the position of osteoacusis component 30 has multiplicity in use Property, user wear when, osteoacusis component 30 suitable position can be turned to according to the demand of user itself and in torsional spring 333 The suitable position is maintained under effect.

Here, it should be noted that " preset direction " can be related with the direction of the central axis of pivotal axis；For example, pivot The central axis of shaft can extend along the longitudinal direction, and the central axis of torsional spring 333 can extend along the longitudinal direction at this time, and bone passes Guide assembly 30 can be relative to temple 11 around the center axis thereof of pivotal axis, to change osteoacusis component 30 in the lateral direction Position, at this time preset direction can refer to user wear virtual reality head-mounted display apparatus 100 when, ecto-entad is close to user The direction of ear, when so that different user wearing virtual reality head-mounted display apparatus 100, osteoacusis component 30 can be close to The ear of user is arranged, and the information of osteoacusis component 30 is received convenient for user, and wherein the rotational angle of osteoacusis component 30 can be with 15 ° are set as, but not limited to this；In another example the central axis of pivotal axis can extend in left-right direction, the center of torsional spring 333 Axis can extend in left-right direction, and osteoacusis component 30 can turn relative to temple 11 around the central axis of pivotal axis at this time Dynamic, to change the position of osteoacusis component 30 in the longitudinal direction, preset direction can refer to that user wears virtual reality head at this time When wearing formula display equipment 100, from the front to the back close to the direction of user's ear, so that different user is worn virtual reality wear-type and is shown When showing equipment 100, the ear that osteoacusis component 30 can be close to the users is arranged.But not limited to this.

For example, osteoacusis shell 31 may include the first osteoacusis shell 311 and in the example of Fig. 3, Fig. 6, Figure 10 Two osteoacusis shells 312, the first osteoacusis shell 311 and the second osteoacusis shell 312 can fasten in left-right direction, and can be with Part 1131 is connected through a screw thread to be fixedly connected；Second structural member 332 can be formed as plate structure, the second structural member 332 it is upper Stating the other end can protrude between the first osteoacusis shell 311 and the second osteoacusis shell 312, and the second structural member 332 is upper Stating the other end could be formed with connecting hole, be equipped with matched connecting shaft 332b in connecting hole, and the two of connecting shaft 332b End cooperates with the first osteoacusis shell 311 and the second osteoacusis shell 312 respectively, to realize the second structural member 332 and osteoacusis Connection between component 30.Wherein, the cross section outer contour shape of connecting hole and connecting shaft 332b are non-circular, and bone passes at this time Guide assembly 30 can in the lateral direction, around the center axis thereof of pivotal axis；Certainly, when the cross of connecting hole and connecting shaft 332b When section outer contour shape is round, osteoacusis component 30 can not only turn in the lateral direction, around the central axis of pivotal axis It is dynamic, osteoacusis component 30 can also in the longitudinal direction, around the center axis thereof of pivotal axis, further improve virtual reality The applicability of head-mounted display apparatus 100.

In addition, the one end of signal wire 4 being electrically connected with mainboard 23 may include two in the example of Fig. 3, Fig. 4, Fig. 8 Signal terminal, two signal terminals can be each attached on temple switch block 112.Ray machine shell 22 may include detaining in left-right direction The the first ray machine shell 221 and the second ray machine shell 222 closed, in order to be located at mainboard 23 by the first ray machine shell 221 and the In installation space at the common restriction of two ray machine shell 222.

It, can be first by ray machine mould group 21, ray machine shell 22 in the assembling process of virtual reality head-mounted display apparatus 100 It is assembled with mainboard 23, lighting apparatus component 2 is completed；Then, metal nuts 112b and connector 1131 are threaded through On temple switch block 112, and connector 1131 is fastened on temple ontology 111 by card-bit part 1132, and lighting apparatus component 2 is inserted It fits on temple switch block 112；Then, rotational structure 33 is installed on temple ontology 111, and be screwed, bone is passed The one end for leading signal wire 40 is fastened on osteoacusis change-over panel 32, and osteoacusis change-over panel is mounted on 31 shell 31 of osteoacusis It is interior, after having managed osteoacusis signal wire 40, with screw that the first osteoacusis shell 311 and the second osteoacusis shell 312 is fixed；Most Afterwards, the other end of osteoacusis signal wire 40 is connect with metal nuts 112b, and is fixed by screw 112c, realize mainboard 23 Data transmission between osteoacusis component 30, it is synchronous with 30 data of osteoacusis component to realize ray machine mould group 21.

In the description of the present invention, it should be understood that term " center ", " transverse direction ", "upper", "lower", " preceding ", The instructions such as " rear ", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " axial direction ", " radial direction ", " circumferential direction " Orientation or positional relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description the utility model and simplification Description, rather than the device or element of indication or suggestion meaning must have a particular orientation, constructed and grasped with specific orientation Make, therefore should not be understood as limiting the present invention.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot Structure, material or feature are contained at least one embodiment or example of the utility model.In the present specification, to above-mentioned art The schematic representation of language may not refer to the same embodiment or example.Moreover, description specific features, structure, material or Person's feature can be combined in any suitable manner in any one or more of the embodiments or examples.

While there has been shown and described that the embodiments of the present invention, it will be understood by those skilled in the art that: These embodiments can be carried out with a variety of variations, modification, replacement in the case where not departing from the principles of the present invention and objective And modification, the scope of the utility model are defined by the claims and their equivalents.

Claims (10)

1. a kind of virtual reality head-mounted display apparatus characterized by comprising

Spectacle frame, the spectacle frame include temple；

Lighting apparatus component, the lighting apparatus component include ray machine mould group, ray machine shell and mainboard, the ray machine shell and the mirror Leg is movably connected, and the ray machine mould group is installed on the front end of the ray machine shell, the mainboard be located in the ray machine shell and It is electrically connected with the ray machine mould group；And

Headset assembly, the headset assembly are located in the temple, and are electrically connected by signal wire with the mainboard.

2. virtual reality head-mounted display apparatus according to claim 1, which is characterized in that the temple includes temple sheet Body, temple switch block and connection structure, the temple switch block are rotatably arranged on the temple ontology by the connection structure, The rear end of the ray machine shell is installed on the temple switch block.

3. virtual reality head-mounted display apparatus according to claim 2, which is characterized in that have on the temple switch block Installation slotted eye is equipped with metal nuts in the installation slotted eye, and one end of the signal wire is locked by screw in the metal It is electrically connected on nut and with the metal nuts, the lighting apparatus component further includes playing needle, described one end for playing needle and the mainboard Electrical connection, the other end stretch out the ray machine shell and are electrically connected with the metal nuts.

4. virtual reality head-mounted display apparatus according to claim 2, which is characterized in that have on the temple switch block Sliding block and limit tooth socket are formed with the cambered way along inward-outward direction perforation on the temple ontology, and the sliding block cooperation is in institute State sliding, the temple in cambered way further include: the first locating part and the first elastic component, first locating part are located at described The outside of cambered way, the radial direction along the cambered way is movable, has retention bead on first locating part, and described the First locating part described in one resilient element urges, so that the retention bead and limit tooth socket limit cooperate.

5. virtual reality head-mounted display apparatus according to claim 2, which is characterized in that the outside of the temple switch block It is formed with the heavy platform inwardly concaved, the perforation along inward-outward direction perforation is formed in the heavy platform, is formed on the temple ontology There is the mounting hole along inward-outward direction perforation, the connection structure includes: connector and card-bit part, the outer end cooperation of the connector In the heavy platform, the inner end of the connector inwardly sequentially passes through the perforation and the mounting hole, and passes through the detent Part is limited in the inside of the mounting hole.

6. virtual reality head-mounted display apparatus according to claim 5, which is characterized in that the outer end shape of the connector Shape be adapted with the shape of the heavy platform and be it is non-circular so that the connector is rotated with the temple switch block.

7. virtual reality head-mounted display apparatus according to claim 2, which is characterized in that have on the temple switch block The rear end inserting of inserting chamber, the ray machine shell is intracavitary in the inserting.

8. virtual reality head-mounted display apparatus according to claim 7, which is characterized in that the rear end of the ray machine shell Inside is formed with the limit hole being outwardly concaved, and the connection structure includes: connector, the second locating part, the second elastic component and lock Position part, has the centre bore penetrated through along inward-outward direction on the connector, and second elastic component is located in the centre bore, institute It states locking position to be located at the inside of second elastic component and be threadedly coupled with the centre bore, second locating part is located at described The inner end limit in the outside of the second elastic component, second locating part is located in the centre bore, outside second locating part End is suitable for being pierced by the centre bore outward, and second elastic component is scalable often to push second locating part along inward-outward direction The outer end be pierced by the centre bore and cooperation in the limit hole.

9. virtual reality head-mounted display apparatus according to claim 1 to 8, which is characterized in that the earphone Component is osteoacusis component, and the signal wire is osteoacusis signal wire, and the osteoacusis component includes that osteoacusis shell and bone pass Change-over panel is led, the osteoacusis shell is located in the temple, and the osteoacusis change-over panel is located in the osteoacusis shell, institute The one end being connected with the headset assembly for stating osteoacusis signal wire penetrates in the osteoacusis shell and is fastened on the bone and passes It leads on change-over panel.

10. virtual reality head-mounted display apparatus according to claim 9, which is characterized in that the osteoacusis component is also Including rotational structure, the rotational structure is pivotally attached to the temple, and the osteoacusis shell is located in the rotational structure, Wherein, the rotational structure includes: first structure part, the second structural member and torsional spring, and the first structure part is fixed on the mirror In leg, one end of second structural member is located in the temple and is pivotally attached to the first structure part, second knot The other end of component is pierced by outside the temple and is connected with the osteoacusis shell, and the torsional spring cooperation is in the first structure The relatively described first structure part of second structural member is pushed between part and second structural member and often to turn towards preset direction It is dynamic.