CN211484965U

CN211484965U - Structure of wearing glasses

Info

Publication number: CN211484965U
Application number: CN201921605139.3U
Authority: CN
Inventors: 蔡沧洲; 黄约翰
Original assignee: Guangyu Biomedical Technology Co ltd
Current assignee: Guangyu Biomedical Technology Co ltd
Priority date: 2019-09-25
Filing date: 2019-09-25
Publication date: 2020-09-15
Anticipated expiration: 2029-09-25

Abstract

The utility model discloses a wear structure of mirror, mainly include one have the goggles body of frame portion and mirror foot portion, locate camera device between frame portion, locate the light emitting component of frame portion outer fringe, locate power supply element, control module, storage device in the mirror foot portion and data transmission device to servo has, contain wireless transmission module, discern processing module and drive processing element in the servo. Therefore, when in operation, a doctor can wear the goggles body to have the functions of strengthening the brightness of the sight range and recording the video of the whole course of the operation process, and the doctor can send out a corresponding control command through a preset gesture action to execute the control command on a medical device, so that the doctor can conveniently lead and control the hardware device required by the operation process.

Description

Structure of wearing glasses

Technical Field

The utility model provides a structure for wearing glasses, which can combine the functions of sight light supplement, operation record, and gesture control external medical equipment on the goggles body.

Background

At present, in the operation process, due to the narrow space of an operation platform, a real-time control and recording system of a first visual angle of a main operator is often lacked, which directly causes the phenomena of visual angle blind areas and recording missing when technical guidance and operation technology playback are required in certain first visual angle areas on site. In the operation process, the provision of the light source is also very important, but the light source in the operating room generally depends on the operating lamp only, and even if the light power is sufficient, the problem of poor irradiation angle often occurs, and if the operation assistant assists in adjustment, the real-time performance and the suitability are greatly reduced.

Although it is not difficult to add video equipment or lighting equipment to the glasses, the video equipment and lighting equipment with strong light source have a certain weight, and when the video equipment and lighting equipment are added to the glasses, the video equipment and lighting equipment become heavy burden for main operators. In addition, the equipment which is required to be controlled by the main operator in real time during the operation process is not only limited to the video equipment and the lighting equipment, but also has pneumatic equipment, and the glasses used in the operating room cannot provide an environment for the main operator to operate easily.

SUMMERY OF THE UTILITY MODEL

A primary object of the present invention is to provide a structure of wearing glasses for adding camera device and light emitting device on the goggles body for operation, to reinforce the brightness of operator's sight range and provide the function of the whole course record of the operation process, and to utilize camera device and data transmission device to cooperate with the identification processing module, providing the function of gesture control for other medical equipment.

The main structure of the utility model comprises a goggles body, comprising two goggle frame parts, a connecting part arranged between the goggle frame parts, two goggle foot parts combined at two ends of the goggle frame part, wherein a control module of at least one power supply element and one electrically connected power supply element is arranged in the goggle foot part, a camera device of at least one electrically connected control module is arranged on the connecting part, the goggle foot parts are used for recording the operation process and capturing gesture action images, a plurality of light-emitting elements of the electrically connected control modules are arranged at the outer edge of the goggle frame part, at least one storage device of the electrically connected camera device and a data transmission device of the information connected camera device are arranged in the goggle foot part, a servo host is additionally arranged, the servo host comprises a wireless transmission module of the wireless connection data transmission device, an identification processing module arranged in the servo host and electrically connected with the wireless transmission module, And a driving processing element arranged in the servo host and electrically connected with the identification processing module, wherein the identification processing module is used for identifying the gesture action image to generate a control command so as to utilize the driving processing element to execute the control command on a medical device.

A structure for wearing glasses is composed of a main body of glasses consisting of two frame parts, a connecting part between two frame parts, two leg parts at both ends of frame part, at least one power supply element in said leg parts, a control module in said leg parts and electrically connected to said power supply element, at least one camera unit for recording operation and picking up gesture images, multiple luminous elements on the periphery of frame part and electrically connected to control module, at least one storage unit in said leg parts and electrically connected to camera unit, a data transmission unit in said leg parts and connected to camera unit, and a servo host containing a wireless transmission module connected to data transmission unit, One is arranged in the servo host and is electrically connected; the identification processing module is connected with the wireless transmission module, and the drive processing element is arranged in the servo host and electrically connected with the identification processing module, and the identification processing module is used for identifying the gesture action image to generate a control command so as to utilize the drive processing element to execute the control command on a medical device.

Furthermore, the camera device has a sensing device for sensing the gesture to drive the camera device to capture the gesture image.

Furthermore, an elastic fixing band is arranged at the end of the glasses leg part departing from the glasses frame part.

Furthermore, a control switch electrically connected with the control module is arranged on the glasses foot part.

Furthermore, the lens leg has a receiving slot for detachably fixing the storage device.

Furthermore, the data transmission device comprises a connection port electrically connected with the power supply element and the storage device.

Further, the inner edge of the frame part is provided with at least one sealing cushion.

Furthermore, one side of the sealing cushion is provided with a fitting curved surface which is an ergonomic curved surface conforming to the contour of the face.

Furthermore, the goggles body includes a glasses containing area formed by the frame and the side of the temple for containing the glasses legs.

Furthermore, the power supply device, the control module, the storage device and the data transmission device are evenly weighted on the lens legs in accordance with the weight of the camera device and the light-emitting devices.

After the technical means is adopted, when in use, the goggles body is only worn in front of eyes/glasses, the power can be supplied to the camera device and the light-emitting element through the power supply element, and the camera device and the light-emitting element are in the same direction as the sight of a user, so that the functions of brightness enhancement of the sight range of the user and whole-course recording of the first-person visual angle in the operation process can be provided.

Drawings

Fig. 1 is a perspective view of the present invention;

FIG. 2 is another perspective view of the goggle body of the present invention;

FIG. 3 is a block diagram of the present invention;

fig. 4 is a schematic view of the present invention;

FIG. 5 is a schematic view of the counterweight of the present invention;

FIG. 6 is a schematic diagram of the present invention;

fig. 7 is a schematic diagram of the gesture control of the present invention;

FIG. 8 is a flow chart of a gesture control action block of the present invention;

FIG. 9 is a perspective view of a goggle body according to yet another embodiment of the present invention;

fig. 10 is a schematic diagram of another embodiment of the present invention.

[ notation ] to show

Goggle

body

1, 1a

Glasses accommodation area 11

Elastic fixing belt 12a

Frame part

2, 2a

Light emitting element 21

Sealing cushion 22a

Bonding curved surface 221a

Connecting part 3

Image pickup device 31

Sensing element 311

Mirror foot parts

4, 4a, 4b

Feeding elements

41, 41b

Control module 42

Control switch 421

Power switch 4211

Light source switch 4212

Video switch 4213

Storage devices

43, 43b

Accommodating groove 431b

Data transmission device

44, 44b

Connecting port 441b

Servo main machine 5

Wireless transmission module 51

Identification processing module 52

Drive processing element 53

Medical device 6

And a pair of glasses 7.

Detailed Description

As shown in fig. 1 to 3, the present invention comprises:

a goggle body 1, comprising two frame parts 2, a connecting part 3 arranged between the frame parts 2, and two temple parts 4 combined at two ends of the frame part 2, wherein a goggle containing area 11 is formed at one side of the frame part 2 and one side of the temple part 4 for containing a goggle 7.

At least one power supply element 41 arranged in the lens leg part 4;

a control module 42 disposed in the lens leg portion 4 and electrically connected to the power supply element 41;

at least one control switch 421 disposed on the lens portion 4 and electrically connected to the control module 42;

at least one camera device 31 disposed on the connection portion 3 and electrically connected to the control module 42 for recording the operation process and capturing the gesture image, and the camera device 31 has a sensing element 311 for sensing the gesture to drive the camera device 31 to capture the gesture image;

a plurality of light emitting elements 21 arranged on the outer edge of the frame portion 2 and electrically connected with the control module 42;

at least one storage device 43 disposed in the lens leg portion 4 and electrically connected to the camera device 31;

a data transmission device 44 disposed in the lens leg portion 4 and connected with the image pickup device 31, and the power supply element 41, the control module 42, the storage device 43 and the data transmission device 44 are equally weighted on the lens leg portion 4 in accordance with the weight of the image pickup device 31 and the light emitting element 21, and

a server 5, the server 5 includes a wireless transmission module 51 (such as a network card) wirelessly connected to the data transmission device 44, an identification processing module 52 disposed in the server 5 and electrically connected to the wireless transmission module 51, and a driving processing component 53 disposed in the server 5 and electrically connected to the identification processing module 52, wherein the identification processing module 52 identifies the gesture image to generate a control command, so that the driving processing component 53 executes the control command on a medical device 6.

As shown in fig. 1-8, the present invention discloses a glasses accommodating area 11 on one side of the available frame 2 and the temple 4 of the goggles body 1, which accommodates the glasses 7 of the user, and the main purpose of the present invention is to allow the user to directly hang the goggles body 1 while wearing the glasses 7, without considering the degree of the lenses, so that the glasses accommodating area 11 can be used to accommodate the temples of the glasses 7, and to allow the goggles body 1 to cover, attach or cover the glasses 7, and to make the wearing feeling of the user more comfortable (as shown in fig. 4).

As shown in fig. 5, the goggles body 1 of the present invention is mainly used in cooperation with the operation situation, and is usually worn for a long time during use, so that the balance weight of the goggles body 1 is also considered to be more important besides the comfort. The camera device 31, which must be matched with the user's sight, is disposed on the connection portion 3 at the center of the two eyes, and the light emitting devices 21 (such as LEDs), which must be matched with the user's view, are disposed around the outer edge of the frame portion 2, and the rest of the devices include the power supply device 41 (such as a battery), the control module 42 (such as a circuit board), the storage device 43 (such as a memory card), and the data transmission device 44(WiFi router), which are disposed in the left and right temple portions 4, respectively.

In actual use, the user can use the control switch 421 on the lens leg 4 to interlock with the control module 42, for example, by pressing the power switch 4211 of the control switch 421, the power supply element 41 turns on the light-emitting element 21 and the imaging device 31, and the power supply element 41 supplies power to the light-emitting element 21 to illuminate the light-emitting element, and the power supply element 41 supplies power to the imaging device 31 to start recording, and can press the light source switch 4212 of the control switch 421 to turn off the illumination operation of the light-emitting element 21 when there is no illumination requirement, or press the recording switch 4213 of the control switch 421 to turn off the recording operation of the imaging device 31 when there is no recording requirement. It should be noted that, because the light emitting device 21 is disposed on the outer edge of the frame portion 2, the area in the visual field of the user can be provided with sufficient light by the light emitting device 21, and the camera device 31 is disposed on the connecting portion 3, so that a video image (as shown in fig. 6) of the first person visual angle in the operation process of the user can be provided, and the video image recorded by the camera device 31 is directly stored in the storage device 43 and can be used as a complete record of the operation process, and can also be wirelessly connected to the action of the wireless transmission module 51 through the data transmission device 44, and the video image is synchronously played to other people through the server 5 for monitoring, thereby facilitating the consultation or teaching guidance of major operations, indirectly reducing the number of people in the operation room, and reducing the infection risk.

Referring to fig. 7-8, when the sensing device 311 detects a gesture, the camera 31 is triggered to capture an image of the gesture of the user, and the image of the gesture is transmitted to the server 5 through the wireless connection between the data transmission device 44 and the wireless transmission module 51, and the recognition processing module 52 compares the image of the gesture with the database, and when the comparison result matches, the recognition processing module 52 generates a control command and uses the driving processing device 53 to execute the control command on the medical device 6. For the user, the function is equivalent to issuing a control command by using a gesture, and the user directly controls the medical equipment 6 (such as an operation lamp and a pneumatic device) (such as a control action of a dotted line), thereby reducing communication misunderstanding with an operation assistant and increasing instantaneity and fitness of operating the medical equipment 6. The gesture control technology can be implemented by a technician writing a corresponding control program embedded in a chip (i.e., the recognition processing module 52), and in the embodiment, the manner of capturing the gesture motion image triggered by the sensing element 311 is merely an example of the preferred embodiment, which is not limited thereto.

As shown in fig. 9, in the present embodiment, an elastic fixing band 12a is disposed at the end of the temple portion 4a away from the frame portion 2a, and at least one sealing cushion 22a is disposed at the inner edge of the frame portion 2a, and one side of the sealing cushion 22a has an ergonomic curved surface 221a conforming to the facial contour. Therefore, the elastic fixing band 12a is used for auxiliary support from the back of the head of the user like sports glasses, which not only can increase the wearing stability of the goggles body 1a, but also can further disperse the stress of the nose bridge and the ears, thereby reducing the weight burden of the user. The sealing cushion 22a can closely contact with the face of the user to increase the wearing comfort of the user and prevent sweat or other foreign matters from flowing in, and the inner side of the sealing cushion 22a is the ergonomically designed curved surface 221a, so that the pressing feeling of the sealing cushion 22a on the face can be reduced while the wearing comfort of the user is considered.

As shown in fig. 10, in the present embodiment, the data transmission device 44b further includes a connection port 441b electrically connected to the power supply device 41b and the storage device 43b, and the temple portion 4b has a receiving groove 431b detachably fixing the storage device 43 b. Thus, the power supply element 41b is charged or the recorded image in the storage device 43b is read simply by the operation of the Micro USB type b connection port 441 b. If the storage device 43b is in the form of a memory card, the storage device 43b can be directly taken out of the storage slot 431b, and the recorded image can be read by the card reader, so that the data transmission and power supply actions of the user can be simple and convenient.

Claims

1. A structure for wearing glasses is composed of a main body of glasses consisting of two frame parts, a connecting part between two frame parts, two leg parts at both ends of frame part, at least one power supply element in said leg parts, a control module in said leg parts and electrically connected to said power supply element, at least one camera unit for recording operation and picking up gesture images, multiple luminous elements on the periphery of frame part and electrically connected to control module, at least one storage unit in said leg parts and electrically connected to camera unit, a data transmission unit in said leg parts and connected to camera unit, and a servo host containing a wireless transmission module connected to data transmission unit, The system comprises a servo host, a wireless transmission module, an identification processing module and a driving processing element, wherein the identification processing module is arranged in the servo host and electrically connected with the wireless transmission module, the driving processing element is arranged in the servo host and electrically connected with the identification processing module, the identification processing module is used for identifying the gesture action image to generate a control command, and the driving processing element is used for executing the control command on a medical device.

2. A lens-wearing structure as claimed in claim 1, wherein: the camera device has a sensing device for sensing gesture to drive the camera device to capture the gesture image.

3. A lens-wearing structure as claimed in claim 1, wherein: the end of the glasses leg part departing from the glasses frame is provided with an elastic fixing band.

4. A lens-wearing structure as claimed in claim 1, wherein: the glasses leg part is provided with a control switch which is electrically connected with the control module.

5. A lens-wearing structure as claimed in claim 1, wherein: the lens leg has a receiving slot for detachably fixing the storage device.

6. A lens-wearing structure as claimed in claim 1, wherein: the data transmission device comprises a connection port electrically connected with the power supply element and the storage device.

7. A lens-wearing structure as claimed in claim 1, wherein: the inner edge of the frame part is provided with at least one sealing cushion.

8. A lens-wearing structure as claimed in claim 7, wherein: one side of the sealing cushion is provided with a fitting curved surface which is an ergonomic curved surface conforming to the contour of the face.

9. A lens-wearing structure as claimed in claim 1, wherein: the goggles body includes a glasses containing area formed by the frame portion and one side of the temple portion for containing the glasses temple.

10. A lens-wearing structure as claimed in claim 1, wherein: the power supply element, the control module, the storage device and the data transmission device are evenly weighted on the lens leg parts in accordance with the weight of the camera device and the light-emitting elements.