CN218675518U - Wearable device - Google Patents

Abstract

The utility model relates to a VR dresses technical field, especially relates to a wearing equipment. The wearing equipment comprises a VR glasses main body and an eyeshade shell fixedly arranged at the front end of the VR glasses main body, and a fixing belt for wearing and fastening is fixedly arranged on the eyeshade shell; further comprising: the water bag is in a shape of a Chinese character 'kou', is adhered and embedded on the inner side edge of the eyeshade shell, is communicated with a liquid circulation component through a conduit, and is embedded in the VR glasses main body; the eye socket support is fixedly installed on the VR glasses main body through screws, air bags are symmetrically embedded on the eye socket support, the air bags are in a ball chain shape, the two air bags are communicated through air guide tubes and are connected with a gas stamping assembly, and the gas stamping assembly is embedded on the eyeshade shell. The utility model provides a wearing equipment has and dresses comfortablely, can alleviate the tired advantage of eye.

Description

Wearable device

Technical Field

The utility model relates to a VR dresses technical field, especially relates to a wearing equipment.

Background

The VR equipment is scientific and technological equipment capable of simulating a real world, namely VR (virtual reality), also called smart technology, and is a computer system capable of creating and experiencing the virtual world, and is a technology for providing immersion feeling in an interactive three-dimensional environment generated on a computer by comprehensively utilizing a computer graphic system and various interface equipment such as reality and control. VR glasses utilize head-mounted display device to seal people to external vision, sense of hearing, guide user to produce the sensation of a body in virtual environment, and its display principle is that left and right eyes screen shows the image of left and right eyes respectively, and the people's eye produces the third dimension in the mind after obtaining this kind of information that has the difference.

However, when the existing VR glasses are worn, in order to create a closed visual condition, eye sockets of the face of a human body need to be shielded by eye shields, although the existing eye shields are made of soft skin-friendly materials, the discomfort of the eyes can still be caused by the sealing of a large-area mask, the fully-closed eye shields are worn for a long time, the mask parts of the fully-closed eye shields are closed for a long time, the mask parts are easy to sweat under the closed condition, the wearing comfort is affected, and the eyes of the VR glasses can also be fatigued after long-time use, so that the wearing comfort of wearing equipment is solved, and the VR glasses are also an important part of the wearing equipment.

Therefore, there is a need to provide a new wearable device to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a dress comfortablely, can alleviate eye fatigue's wearing equipment.

The utility model provides a wearing equipment includes: the glasses comprise a VR glasses body and an eyeshade shell fixedly arranged at the front end of the VR glasses body, wherein a fixing belt for wearing and fastening is fixedly arranged on the eyeshade shell;

further comprising: the water bag is in a shape of a Chinese character 'kou', is adhered and embedded on the inner side edge of the eyeshade shell, is communicated with a liquid circulation component through a conduit, and is embedded in the VR glasses main body;

the eye socket support is fixedly installed on the VR glasses main body through screws, air bags are symmetrically embedded on the eye socket support, the air bags are in a ball chain shape, the two air bags are communicated through air guide tubes and are connected with a gas stamping assembly, and the gas stamping assembly is embedded on the eyeshade shell.

Preferably, the liquid circulation assembly comprises water tanks and micro water pumps, the two water tanks are symmetrically embedded on two sides of the VR glasses main body and are communicated with each other through a guide pipe, one of the water tanks is communicated with the water bag through a guide pipe, the micro water pumps are fixedly installed in the VR glasses main body, a liquid inlet end of each micro water pump is communicated with the other water tank, and a liquid outlet end of each micro water pump is communicated with the water bag.

Preferably, both sides of the VR glasses main body are provided with through holes for embedding a water tank.

Preferably, two a plurality of fin of dispelling the heat are evenly installed to the lateral wall that the through-hole that the water tank passed VR glasses main part and seted up, two semiconductor refrigeration piece is installed to the lateral wall that the water tank is located VR glasses main part inner chamber.

Preferably, gaseous punching press subassembly is including sealed inflator, sealed piston rod and miniature electric telescopic handle, sealed inflator inlays and adorns in VR glasses main part to the end passes through pipe and arbitrary one gasbag intercommunication, just sealed inflator inner chamber slidable mounting has sealed piston rod, sealed inflator and miniature electric telescopic handle's telescopic end fixed connection is passed to sealed inflator and miniature electric telescopic handle's one end, miniature electric telescopic handle and sealed inflator fixed connection.

Preferably, the gas punching components are arranged in two groups, the two groups of gas punching components are symmetrically distributed based on the VR glasses main body, the gas capacity of a sealing gas cylinder of the gas punching components is the sum of the gas capacities of the two gas bags, and the two groups of micro electric telescopic rods of the gas punching components are alternately operated during working.

Compared with the prior art, the utility model provides a wearing equipment has following beneficial effect:

1. the utility model provides a wearing device, which utilizes the softness of the water bag to be attached to the eye socket part by sticking the water bag on the edge of the shade of the eyeshade shell, and then continuously carries out circulating flow on the liquid in the water bag by utilizing the matching of the water tank of the liquid circulating component, the micro water pump and the radiating fin, thereby radiating the contact part of the water bag and the eye socket, so that the eyeshade shell is more comfortable when being worn and sealed, and the liquid circulating component can be utilized to synchronously radiate the inside of the VR glasses main body;

2. through the air bags of the ball chain shape symmetrically arranged on the eye socket support, the air inflation and deflation of the two air bags are alternately realized through the matching of the air cylinder sealed by the air stamping component, the sealed piston rod and the micro electric telescopic rod, so that when eyes are tired, the periphery of the eyes are stamped and massaged through the alternate shrinkage and expansion of the air bags of the ball chain shape, and therefore, when the eyes are watched to be tired, the eyes are massaged, and the fatigue of the eyes is relieved.

Drawings

Fig. 1 is a schematic structural view of a preferred embodiment of the wearable device provided by the present invention;

FIG. 2 is a schematic view of the water bag of FIG. 1 with the fluid circulation assembly installed;

FIG. 3 is a schematic view of the airbag of FIG. 1 with a gas ram assembly installed;

fig. 4 is a schematic view of the internal structure of the gas stamping assembly shown in fig. 3.

Reference numbers in the figures: 1. a VR glasses body; 2. an eye shield case; 3. fixing belts; 4. a water bag; 5. a liquid circulation assembly; 51. a water tank; 52. a micro water pump; 53. heat dissipating fins; 54. a semiconductor refrigeration sheet; 6. an orbital brace; 7. an air bag; 8. a gas stamping assembly; 81. sealing the air cylinder; 82. sealing the piston rod; 83. miniature electric telescopic handle.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following detailed description is provided for the specific embodiments of the present invention.

Referring to fig. 1 to 4, an embodiment of the present invention provides a wearable device, including: VR glasses main part 1, eye-shade casing 2, fixed band 3, water bag 4, liquid circulation subassembly 5, eye socket support 6, gasbag 7 and gas punching press subassembly 8.

The eyeshade shell 2 is fixedly arranged at the front end of the VR glasses body 1, a fixing belt 3 for wearing and fastening is fixedly arranged on the eyeshade shell 2, the water bag 4 in a square shape is adhered and embedded at the edge of the inner side of the eyeshade shell 2, the water bag 4 is communicated with a liquid circulation component 5 through a conduit, and the liquid circulation component 5 is embedded in the VR glasses body 1; eye socket support 6, through screw fixed mounting in on the VR glasses main part 1, just the symmetry inlays on the eye socket support 6 and is equipped with gasbag 7, two gasbag 7 all is the ball chain form, and communicates through the air duct between two gasbags 7 to be connected with gaseous punching press subassembly 8, gaseous punching press subassembly 8 inlays and is adorned on eye-shade casing 2.

It should be noted that: when wearing, VR glasses main part 1 is worn at the head through fixed band 3 of eye-shade casing 2, then paste water bag 4 through the shade edge at eye-shade casing 2, utilize the softness of water bag 4 to attach in eye socket portion, then carry out circulation flow through utilizing liquid circulation subassembly 5 to the liquid in the water bag 4, thereby dispel the heat to water bag 4 and eye socket contact site, thereby make eye-shade casing 2 when the wearing is sealed, it is more comfortable, when VR video appears tired when watching the eyes, aerify gasbag 7 through utilizing gaseous punching press subassembly 8, thereby utilize the alternative shrink inflation of the gasbag 7 of the chain-like of ball to carry out the punching press massage around eyes, thereby alleviate eye fatigue.

In the embodiment of the present invention, please refer to fig. 1 and 2, the liquid circulation component 5 includes a water tank 51 and a micro water pump 52, two of the water tank 51 is symmetrically embedded in two sides of the VR glasses body 1, and the two water tanks 51 are communicated with each other through a conduit, one of the water tanks 51 is communicated with the water bag 4 through a conduit, the micro water pump 52 is fixedly installed in the VR glasses body 1, and the liquid inlet end of the micro water pump 52 is communicated with the other water tank 51, and the liquid outlet end of the micro water pump 52 is communicated with the water bag 4.

It should be noted that: when the liquid circulation subassembly 5 uses, constantly circulate liquid in the water tank 51 and the liquid in the water bag 4 through miniature pump 52 to carry out the heat derivation through liquid circulation to the shade department of water bag 4, thereby when making to utilize water bag 4 to carry out the shade to seal, the shade is more comfortable.

It should also be noted that: here when micro-water pump 52 installs, need live with the micro-water pump 52 parcel with soundproof cotton to reduce micro-water pump 52's noise as far as possible, avoid causing the interference to watching the VR video, thereby the influence is watched and is experienced.

In the embodiment: the both sides of VR glasses main part 1 are seted up and are used for inlaying the through-hole of adorning water tank 51, are convenient for like this inlay the dress on VR glasses main part 1 with two water tank 51 symmetries.

In the embodiment of the present invention, please refer to fig. 1 and fig. 2, two the lateral wall of the water tank 51 passing through the through hole opened by the VR glasses main body 1 is uniformly installed with a plurality of heat dissipating fins 53, two the water tank 51 is located on the lateral wall of the inner cavity of the VR glasses main body 1 and is installed with the semiconductor refrigeration piece 54.

It should be noted that: utilize micro-water pump 52 when the twitch liquid flows like this, through the heat conduction of a plurality of radiating fin 53 and the refrigeration of semiconductor refrigeration piece 54 to dispel the heat to water tank 51, thereby cool down the liquid in the water tank 51, thereby realize dispelling the heat to shade department, further can dispel the heat to VR glasses main part 1 inside.

In the embodiment of the present invention, please refer to fig. 1, fig. 3 and fig. 4, the gas stamping assembly 8 includes a sealing cylinder 81, a sealing piston rod 82 and a micro electric telescopic rod 83, the sealing cylinder 81 is embedded on the VR glasses main body 1, and the end is communicated with any one of the airbags 7 through a conduit, and the sealing piston rod 82 is slidably installed in the inner cavity of the sealing cylinder 81, one end of the sealing piston rod 82 passes through the telescopic end fixed connection of the sealing cylinder 81 and the micro electric telescopic rod 83, and the micro electric telescopic rod 83 is fixedly connected with the sealing cylinder 81.

Wherein, the gas punching components 8 are provided with two sets, two sets of the gas punching components 8 are symmetrically distributed based on the VR glasses main body 1, the gas capacity of the sealing gas cylinder 81 of the gas punching components 8 is the sum of the gas capacities of the two gas bags 7, and the working of the micro electric telescopic rods 83 of the two sets of the gas punching components 8 is alternately performed.

It should be noted that: when the gas stamping component 8 is used, when watching and appearing tired, the miniature electric telescopic rod 83 of the two sets of gas stamping components 8 is controlled to alternately work, thereby driving the sealing piston rods 82 in the two sealing air cylinders 81 to alternately stretch out and draw back, thereby alternately inflating and deflating the two air bags 7, thereby driving the alternately contracting and expanding of the air bags 7 in a ball chain shape to perform stamping massage on the periphery of eyes, thereby being capable of watching and appearing tired at the eyes, massaging the eyes, and relieving the fatigue of the eyes.

The utility model provides a wearing equipment's theory of operation as follows:

when the VR glasses are worn, the VR glasses body 1 is worn on the head through the fixing bands 3 of the eyeshade shell 2, then the water bag 4 is pasted on the edge of the shade of the eyeshade shell 2, the water bag 4 is attached to the eye socket part through the softness of the water bag 4, then the liquid in the water tank 51 and the liquid in the water bag 4 are continuously circulated through the miniature water pump 52, when the miniature water pump 52 pumps the liquid to flow, the water tank 51 is cooled through the heat conduction of the plurality of radiating fins 53 and the refrigeration of the semiconductor refrigeration sheet 54, so that the liquid in the water tank 51 is cooled, and the heat is conducted to the shade of the water bag 4 through the liquid circulation, so that the shade is more comfortable when the water bag 4 is used for shade sealing; when the eyes are watched to be fatigued, the miniature electric telescopic rods 83 of the two groups of gas stamping assemblies 8 are controlled to alternately work, so that the sealing piston rods 82 in the two sealing air cylinders 81 are driven to alternately extend and retract, the two air bags 7 are alternately inflated and deflated, the alternate shrinkage and expansion of the air bags 7 in the shape of a spherical chain are driven to stamp and massage the periphery of the eyes, the eyes can be massaged when the eyes are watched to be fatigued, and the eye fatigue is relieved.

The utility model discloses circuit and control that relate to are prior art, do not carry out too much repetition here.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (6)

1. A wearable device, comprising:

the glasses comprise a VR glasses body (1) and an eyeshade shell (2) fixedly mounted at the front end of the VR glasses body (1), wherein a fixing belt (3) for wearing and fastening is fixedly mounted on the eyeshade shell (2);

it is characterized by also comprising:

the water bag (4) is in a shape of a Chinese character kou and is pasted and embedded on the inner side edge of the eyeshade shell (2), the water bag (4) is communicated with a liquid circulation component (5) through a conduit, and the liquid circulation component (5) is embedded in the VR glasses main body (1);

eye socket support (6), through screw fixed mounting in on VR glasses main part (1), just the symmetry inlays and is equipped with gasbag (7) on eye socket support (6), two gasbag (7) all are the ball chain form, and communicate through the air duct between two gasbags (7) to be connected with gaseous punching press subassembly (8), gaseous punching press subassembly (8) are inlayed and are adorned on eye-shade casing (2).

2. The wearing apparatus as claimed in claim 1, wherein the liquid circulation module (5) comprises two water tanks (51) and a micro water pump (52), the two water tanks (51) are symmetrically embedded on two sides of the VR glasses body (1), the two water tanks (51) are communicated with each other through a conduit, one water tank (51) is communicated with the water bag (4) through a conduit, the micro water pump (52) is fixedly installed in the VR glasses body (1), an inlet end of the micro water pump (52) is communicated with the other water tank (51), and an outlet end of the micro water pump (52) is communicated with the water bag (4).

3. The wearing device of claim 2, wherein through holes for embedding the water tank (51) are formed in two sides of the VR glasses body (1).

4. The wearing device of claim 3, wherein a plurality of heat dissipating fins (53) are uniformly arranged on the two water tanks (51) through the outer side wall of the through hole formed in the VR glasses body (1), and a semiconductor cooling plate (54) is arranged on the outer side wall of the two water tanks (51) positioned in the inner cavity of the VR glasses body (1).

5. The wearing apparatus as claimed in claim 1, wherein the gas punching assembly (8) comprises a sealing gas cylinder (81), a sealing piston rod (82) and a micro electric telescopic rod (83), the sealing gas cylinder (81) is embedded in the VR glasses body (1) and the end of the sealing gas cylinder is communicated with any one of the air bags (7) through a guide tube, the sealing piston rod (82) is slidably mounted in the inner cavity of the sealing gas cylinder (81), one end of the sealing piston rod (82) penetrates through the sealing gas cylinder (81) to be fixedly connected with the telescopic end of the micro electric telescopic rod (83), and the micro electric telescopic rod (83) is fixedly connected with the sealing gas cylinder (81).

6. Wearing device according to claim 5, wherein the gas punching assemblies (8) are provided in two groups, two groups of gas punching assemblies (8) being symmetrically distributed based on the VR glasses body (1), and

the gas capacity of the sealed gas cylinder (81) of the gas stamping assembly (8) is the sum of the gas capacities of the two gas bags (7), and the micro electric telescopic rods (83) of the two groups of gas stamping assemblies (8) work alternately.

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