CN111458878A - Self-adaptive transparent display device for intelligent glasses - Google Patents

Abstract

The invention discloses an adaptive transparent display device for smart glasses, which belongs to the field of smart glasses. A plug-in block A is installed inside the slot A, a miniature fan is installed on the lower side of the plug-in block A, a control button is fixedly installed on the outer wall of the upper end of the miniature fan, a through tube is fixedly installed on the inner side of the slot A, and the mirror frame is fixedly installed. The left and right outer walls are fixedly installed with fixing blocks, the inner wall of the upper end of the fixing block is fixedly installed with a slot B, the insertion block B is fixed inside the slot B, and the upper end of the insertion block B is fixedly connected with a connecting rod. By arranging the photoresistor and the signal switching device, the effect of the display device is improved, and the use effect of the smart glasses is improved through the rotating structure and the embedded fixing structure.

Description

An adaptive transparent display device for smart glasses

technical field

The present invention relates to the technical field of smart glasses, in particular to an adaptive transparent display device for smart glasses.

Background technique

Smart glasses, also known as smart mirrors, refer to "like smart phones, with independent operating systems, smart glasses can be installed by users software, games and other software service providers. Operating system, a general term for wearable glasses devices that can realize various functions through software installation, it is one of the most promising wearable smart devices proposed in recent years, and it has the advantages of easy use, small size, etc. Features The public generally believes that the appearance of smart glasses will facilitate people's lives, so it has been researched and developed by Google and Microsoft, and is regarded as an important growth point for future smart technology products.

The existing smart glasses have some shortcomings: 1. The existing smart glasses only have the functions of music playback and voice call, but cannot directly display effective information on the lens or in front of the lens through the display device, and have no adaptability, Can not bring more convenience to the user. 2. The existing smart glasses still have the fogging of the lenses. When entering a higher temperature environment from a lower temperature environment, due to the effect of liquefaction, the cold air attached to the lens is liquefied and liquefied into water droplets due to heat absorption and heat absorption. The lens needs to be wiped by the user. If this process occurs repeatedly, the use effect will be reduced. The existing smart glasses do not have an anti-fog device, which reduces the use effect of only glasses. 3. When wearing the existing smart glasses, since there are many devices installed on the frame of the glasses, it is necessary to make the frame tightly clamp the two ear frames of the user. It is uncomfortable and reduces the use effect of smart glasses.

SUMMARY OF THE INVENTION

The present invention provides an adaptive transparent display device for smart glasses, which aims to install a light sensing device, a liquid crystal display device and an embedded fixing structure. When smart glasses are required, the left and right sides of the display panel are fixedly installed The insert block B at the lower end of the connecting rod is aligned with the slot B in the fixed installation block on the left and right sides of the frame, and insert the insert block B into the slot B, so that the fixed guide plate at the lower end of the insert block B is fixed in the slot B. The installed guides are attached, so that the display panel, the photoresistor, the wireless signal adapter and the battery form a closed circuit. The display panel is composed of three transparent glass layers: the pixel layer, the liquid crystal layer and the electrode layer. The wireless signal adapter It is connected to the mobile phone hotspot, and the weather and call information of the mobile phone is transmitted to the wireless signal adapter through the hotspot radio wave. The photoresistor of the circuit, the electrical signal of the photoresistor is transmitted to the logic board in the display panel through the wire, and the logic board sends the signal board to get the image signal. After the logic operation, the output controls the TFT switch, that is, controls the flipping action of the liquid crystal molecules. The liquid crystal arrangement becomes orderly, the light is easy to pass through, the signal sent by the mobile phone is displayed on the display board through the image letter, and the user can directly view the weather and call information from the mobile phone through the lens, and the photoresistor receives it. The higher the light intensity, the smaller the resistance, the smaller the resistance, the greater the current through the photoresistor, the greater the voltage, so that the intensity of the light signal transmitted to the display panel through the transistor is stronger, so that the image displayed on the display panel will be stronger. The higher the brightness of the signal, the lower the light intensity received by the photoresistor, the greater the resistance, the smaller the current passing through the photoresistor, the smaller the voltage, and the weaker the light signal intensity transmitted to the display panel through the static gas tank, then The lower the brightness of the image signal, if you do not need to use the display device, directly pull out the display panel to the front, and move the plug B forward from the slot B to separate the display panel. The display panel is relatively fragile in structure and is fixed externally. The installed rubber gasket protects the display panel as a whole, avoids damage to the display panel due to impact, and improves the use effect of the smart glasses.

Through the embedded fixed structure and refrigeration device, when the wearer enters a warmer environment from a colder environment, under the action of liquefaction, the cold air on the lens absorbs heat and liquefies to form water droplets attached to the inner and outer surfaces of the lens, and manually Press the insert block A down, the rubber insert block A moves down slightly in the slot A, squeeze the control button fixedly installed on the upper outer wall of the lower side micro fan, the control button is pressed to start the micro fan, and the micro fan blows a breeze. Slight cooling, through the connecting tube of the lens, has a cooling effect on the lens, which reduces the surface temperature of the lens so that the water vapor disappears, and does not affect the wearer's eyes, which improves the use effect of smart glasses.

By installing the rotating structure, when you need to wear smart glasses, manually turn the knob, the rotation of the knob drives the rotation of the rod, and the rotation of the rod drives the screw block A fixedly installed at the left end to rotate, and the screw block A is cut with threads and blocks through the outer wall. The thread of the outer wall of B matches, the rotation of the screw block B drives the rotation of the screw, and the screw is cut through the outer wall to match the thread of the inner wall of the screw sleeve, which drives the screw sleeve to move up and down on the outer wall of the screw, and the up and down movement of the screw sleeve drives the bearing sleeve to move up and down , The bearing sleeve moves up and down to drive the rubber septum to move up and down in the sliding groove, which is convenient to adjust the position of the septum according to the position of the wearer's frame, so that the wearer's two ear frames are more comfortable and the use effect of smart glasses is improved. .

The specific technical scheme provided by the present invention is as follows:

An adaptive transparent display device for smart glasses provided by the present invention includes a frame, a lens is fixedly installed inside the frame, a slot A is fixedly installed inside the upper ends of the left and right sides of the lens, and the slot A is installed inside There is a plug-in block A, a miniature fan is installed on the lower side of the plug-in block A, a control button is fixedly installed on the outer wall of the upper end of the miniature fan, a through pipe is fixedly installed on the inner side of the slot A, and the outer walls on the left and right sides of the mirror frame are fixedly installed There is a fixing block, a slot B is fixedly installed on the inner wall of the upper end of the fixing block, an inserting block B is fixed inside the slot B, a connecting rod is fixedly connected to the upper end of the inserting block B, and a display is fixedly installed in the middle of the connecting rod. The outer wall of the front end of the right side of the fixing block is fixedly installed with a battery, the outer wall of the front end of the left side of the connecting rod is fixedly installed with a photoresistor, and the front end of the left side of the fixing block is fixedly installed with a washer. In the wireless signal adapter, the lower side of the fixed block is rotatably installed with a rotating shaft, the lower end of the rotating shaft is rotatably installed with a mirror frame, the outer side wall of the mirror frame is rotatably installed with a turning button, and the inner end of the turning button is rotatably installed through the mirror frame There is a rotating rod, the inner end of the rotating rod is fixedly installed with a screw block A, the lower end of the mirror frame is rotatably installed with a screw rod, the upper end of the screw rod is fixedly installed with a screw block B, and the outer wall of the screw rod is rotated and sleeved with a screw rod sleeve A bearing sleeve is fixedly sleeved on the outer wall of the screw sleeve, a sliding groove is fixedly installed on the inner side wall of the mirror frame, and a spacer is fixedly installed in the inner side of the bearing sleeve through the sliding groove.

Optionally, the outer wall of the screw rod is fixedly installed with threads, and the inner wall of the screw sleeve is fixedly installed with threads matching the threads of the outer wall of the screw rod to form a rotating structure.

Optionally, the outer wall of the screw block A is cut with threads, and the outer wall of the screw block B is cut with threads that match the threads of the outer wall of the screw block A to form a rotating structure.

Optionally, a slot B is fixedly installed inside the upper end of the fixing block, and an insert block B matched with the slot B is fixedly installed at the lower end of the connecting rod to form an embedded fixing structure.

Optionally, the upper ends of the left and right sides of the mirror frame are fixedly installed with a slot A matched with the insertion block A to form an embedded fixed structure.

Optionally, six groups of the through pipes are fixedly installed and evenly distributed.

Optionally, the display panel is composed of three transparent glass layers, a pixel layer, a liquid crystal layer and an electrode layer.

Optionally, the shape of the spacer is wavy and made of rubber.

Optionally, the gasket is made of soft rubber.

Optionally, the output end of the battery and the input end of the wireless signal adapter are electrically connected by wires, and the output end of the wireless signal adapter is connected with the input end of the photoresistor by wires, and the photoresistor is connected by wires. The output end of the display panel is electrically connected with the input end of the display panel through wires.

The beneficial effects of the present invention are as follows:

1. An embodiment of the present invention provides an adaptive transparent display device for smart glasses. By installing a light sensing device, a liquid crystal display device and an embedded fixing structure, when the smart glasses need to be used, the left and right sides of the display panel are fixed. The insert B at the lower end of the connecting rod is aligned with the slot B in the fixed mounting block on the left and right sides of the frame. The inner fixed guides are attached, so that the display panel, the photoresistor, the wireless signal adapter and the battery form a closed circuit. The display panel is composed of three transparent glass layers: the pixel layer, the liquid crystal layer and the electrode layer. The converter is connected with the mobile phone hotspot, and transmits the weather and call information of the mobile phone to the wireless signal adapter through the hotspot radio wave. The photoresistor transmitted to the circuit, the electrical signal through the photoresistor is transmitted to the logic board in the display panel through the wire, and the logic board sends the signal board to obtain the image signal. After the logic operation, the output controls the TFT switch, that is, the flipping of the liquid crystal molecules. Action, make the liquid crystal arrangement become orderly, make the light easy to pass through, and display the signal sent by the mobile phone on the display board through the image letter, and the user can directly view the weather and call information sent by the mobile phone through the lens. The higher the light intensity received by the resistor, the smaller the resistance, the smaller the resistance, the greater the current through the photoresistor, the greater the voltage, so that the intensity of the light signal transmitted to the display panel through the transistor is stronger, so that the display is displayed on the display panel. The higher the brightness of the image signal, the lower the light intensity received by the photoresistor, the greater the resistance, the smaller the current through the photoresistor, the smaller the voltage, and the weaker the intensity of the light signal transmitted to the display panel through the static gas tank , the lower the brightness of the image signal, if the display device is not needed, directly pull out the display panel to the front, so that the insert block B moves forward and separates from the slot B, the display panel can be removed, the structure of the display panel is relatively fragile, The externally fixed rubber gasket protects the display panel as a whole, avoids damage to the display panel due to impact, and improves the use effect of the smart glasses.

2. Through the embedded fixed structure and refrigeration device, when the wearer enters a warmer environment from a colder environment, under the action of liquefaction, the cold air on the lens absorbs heat and liquefies to form water droplets attached to the inner and outer surfaces of the lens. Manually press down the insert block A, the rubber insert block A moves down slightly in the slot A, squeeze the control button fixedly installed on the outer wall of the upper end of the lower side micro fan, the control button is pressed to start the micro fan, and the micro fan blows out The breeze produces a slight cooling effect, and through the tube connecting the lens, the lens has a cooling effect, which reduces the surface temperature of the lens so that the water vapor disappears, and does not affect the wearer's eyes, which improves the use effect of smart glasses.

3. By installing the rotating structure, when you need to wear smart glasses, manually turn the knob, the rotation of the knob drives the rotation of the rod, and the rotation of the rod drives the screw block A fixedly installed on the left end to rotate, and the screw block A is cut with threads through the outer wall. The outer wall of the screw block B is matched with the thread, and the rotation of the screw block B drives the screw to rotate. The screw is cut with threads on the outer wall to match the threads of the inner wall of the screw sleeve, which drives the screw sleeve to move up and down on the outer wall of the screw, and the screw sleeve moves up and down to drive the bearing sleeve. Moving up and down, the bearing sleeve moves up and down to drive the rubber septum to move up and down in the sliding groove, which is convenient to adjust the position of the septum according to the position of the wearer's frame, which makes the wearer's two ear frames more comfortable and improves the smart glasses. Effect.

Description of drawings

In order to illustrate the technical solutions in the embodiments of the present invention more clearly, the following briefly introduces the accompanying drawings used in the description of the embodiments. Obviously, the accompanying drawings in the following description are only some embodiments of the present invention. For those of ordinary skill in the art, other drawings can also be obtained from these drawings without creative effort.

FIG. 1 is a schematic cross-sectional structural schematic diagram of an adaptive transparent display device for smart glasses according to an embodiment of the present invention;

2 is a schematic top-view cross-sectional structural diagram of a frame of an adaptive transparent display device for smart glasses according to an embodiment of the present invention;

3 is an enlarged structural schematic diagram of part A in FIG. 1 of an adaptive transparent display device for smart glasses according to an embodiment of the present invention;

4 is a schematic top-view structural diagram of a display device of an adaptive transparent display device for smart glasses according to an embodiment of the present invention;

FIG. 5 is an enlarged structural schematic diagram of part B in FIG. 1 of an adaptive transparent display device for smart glasses according to an embodiment of the present invention;

FIG. 6 is an enlarged structural schematic diagram of part C in FIG. 1 of an adaptive transparent display device for smart glasses according to an embodiment of the present invention.

In the figure: 1. Frame; 2. Lens; 3. Slot A; 4. Insert A; 5. Micro fan; 10, battery; 11, connecting rod; 12, display panel; 13, washer; 14, shaft; 15, mirror frame; 16, rotary knob; 17, rotary rod; 18, screw block A; 19, screw rod; 20, screw Block B; 21, screw sleeve; 22, bearing sleeve; 23, sliding groove; 24, spacer; 25, photoresistor; 26, wireless signal adapter; 27, control button.

Detailed ways

In order to make the objectives, technical solutions and advantages of the present invention clearer, the present invention will be further described in detail below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of the present invention, not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

An adaptive transparent display device for smart glasses according to an embodiment of the present invention will be described in detail below with reference to FIGS. 1 to 6 .

Referring to FIGS. 1 , 2 , 3 , 4 , 5 and 6 , an adaptive transparent display device for smart glasses provided by an embodiment of the present invention includes a frame 1 , and a lens is fixedly installed inside the frame 1 2. Slot A3 is fixedly installed inside the upper ends of the left and right sides of the lens 2, and a plug A4 is installed inside the slot A3. A through-pipe 6 is fixedly installed on the inner side of the slot A3, a fixing block 7 is fixedly installed on the outer walls of the left and right sides of the mirror frame 1, a slot B8 is fixedly installed on the inner wall of the upper end of the fixing block 7, and a plug-in block B9 is fixed inside the slot B8, and the upper end of the plug-in block B9 is fixed A connecting rod 11 is connected, a display board 12 is fixedly installed in the middle of the connecting rod 11, a washer 13 is fixedly sleeved on the outside of the display board 12, a battery 10 is fixedly installed on the outer wall of the right front end of the fixing block 7, and the outer wall of the left front end of the connecting rod 11 is fixedly installed There is a photoresistor 25, a wireless signal adapter 26 is fixedly installed on the left front end of the fixed block 7, a rotating shaft 14 is rotatably installed on the lower side of the fixed block 7, a mirror frame 15 is rotatably installed on the lower end of the rotating shaft 14, and the outer side wall of the mirror frame 15 is rotatably installed with Rotation knob 16, the inner end of the rotation knob 16 penetrates the mirror frame 15 and is rotatably installed with a rotary rod 17, the inner end of the rotary rod 17 is fixedly installed with a screw block A18, the lower end of the mirror frame 15 is rotatably installed with a screw rod 19, and the upper end of the screw rod 19 is fixedly mounted with a screw rod. Block B20, the outer wall of the screw 19 is rotatably sleeved with a screw sleeve 21, the outer wall of the screw sleeve 21 is fixedly sleeved with a bearing sleeve 22, the inner side wall of the mirror frame 15 is fixedly installed with a sliding groove 23, and the inner side of the bearing sleeve 22 penetrates the sliding groove 23 for fixed installation There is a septum 24.

Referring to FIGS. 1 and 6 , the outer wall of the screw 19 is fixedly installed with threads, and the inner wall of the screw sleeve 21 is fixedly installed with threads that match the threads of the outer wall of the screw 19 to form a rotating structure. When you need to wear smart glasses, manually turn the knob. 16. The rotation of the rotary knob 16 drives the rotation of the rotary rod 17, and the rotation of the rotary rod 17 drives the rotation of the screw block A18 fixedly installed at the left end. Rotating, the screw 19 is cut with threads on the outer wall to match the threads of the inner wall of the screw sleeve 21, which drives the screw sleeve 21 to move up and down on the outer wall of the screw 19, the up and down movement of the screw sleeve 21 drives the bearing sleeve 22 to move up and down, and the bearing sleeve 22 moves up and down The rubber spacer 24 is driven to move up and down in the sliding groove 23, which facilitates adjusting the position of the spacer 24 according to the position of the wearer's glasses frame 15, thereby making the wearer's two ear frames more comfortable and improving the use effect of the smart glasses.

Referring to Figures 1 and 5, the outer wall of the screw block A18 is cut with threads, and the outer wall of the screw block B20 is cut with threads that match the threads of the outer wall of the screw block A18 to form a rotating structure. When you need to wear smart glasses, manually turn the knob 16 , the rotation of the knob 16 drives the rotation of the rotation rod 17, the rotation of the rotation rod 17 drives the rotation of the screw block A18 fixedly installed at the left end, and the screw block A18 is cut with threads on the outer wall to match the threads of the outer wall of the screw block B20, and the rotation of the screw block B20 drives the screw 19 to rotate , the screw 19 is cut with threads on the outer wall to match the threads of the inner wall of the screw sleeve 21, which drives the screw sleeve 21 to rotate and move up and down on the outer wall of the screw 19; The rubber spacer 24 moves up and down in the sliding groove 23, which is convenient to adjust the position of the spacer 24 according to the position of the wearer's glasses frame 15, thereby making the wearer's two ear frames more comfortable and improving the use effect of the smart glasses.

Referring to Figures 1 and 3, a slot B8 is fixedly installed inside the upper end of the fixing block 7, and a plug B9 matching the slot B8 is fixedly installed at the lower end of the connecting rod 11, forming an embedded fixed structure. When installing glasses, align the plug B9 at the lower end of the connecting rod 11 on the left and right sides of the display board 12 with the slot B8 in the fixed block 7 on the left and right sides of the frame 1, and insert the plug B9 into the slot B8. The guide piece fixedly installed at the lower end of the insert block B9 is attached to the guide piece fixedly installed in the slot B8, so that the display board 12, the photoresistor 25, the wireless signal adapter 26 and the battery form a closed circuit, wherein the display board 12 consists of a closed circuit. The pixel layer, the liquid crystal layer and the electrode layer are composed of three transparent glass layers. The wireless signal adapter 26 is connected to the mobile phone hotspot, and transmits the weather and call information of the mobile phone to the wireless signal adapter 26 through the hotspot radio waves, and the wireless signal is transferred. The device 26 decodes and analyzes the electric wave after receiving the electric wave through the internal installed decoder, converts it into an electrical signal and transmits it to the photoresistor 25 of the circuit through the transistor, and transmits the electrical signal through the photoresistor 25 to the logic board in the display panel 12 through the wire, and the logic board The image signal is sent from the signal board, and after the logic operation is performed, the output controls the TFT switch, that is, the flipping action of the liquid crystal molecules is controlled, so that the liquid crystal arrangement becomes orderly, so that the light can pass easily, and the signal sent by the mobile phone is displayed through the image letter. On the display panel 12, the user can directly view the weather and call information sent by the mobile phone through the lens 2. The higher the light intensity received by the photoresistor 25, the smaller the resistance, and the smaller the resistance, the greater the current passing through the photoresistor 25. , the higher the voltage, the stronger the intensity of the optical signal transmitted to the display panel 12 through the transistor, and the higher the brightness of the image signal displayed on the display panel 12. If the light intensity received by the photoresistor 25 is lower, the resistance The larger the value, the smaller the current passing through the photoresistor 25, the smaller the voltage, the weaker the intensity of the light signal transmitted to the display panel 12 through the static gas tank, and the lower the brightness of the image signal. Pull out the display board 12 to the front, and move the insert block B9 forward from the slot B8 to separate the display board 12. The display board 12 can be removed. The structure of the display board 12 is relatively fragile, and the externally fixed rubber gasket 13 integrates the display board 12 It can protect the display panel 12 from being damaged by impact, and improve the use effect of the smart glasses.

Referring to Figures 1 and 2, the upper ends of the left and right sides of the frame 1 are fixedly installed with slots A3 which are matched with the insert blocks A4 to form an embedded fixed structure. When the wearer enters a warmer environment from a cooler environment In the environment, under the action of liquefaction, the cold air on the lens 2 absorbs heat and liquefies to form water droplets attached to the inner and outer surfaces of the lens 2. Manually press down the insert A4, the rubber insert A4 moves down slightly in the slot A3 Squeeze the control button 27 fixedly installed on the outer wall of the upper end of the lower side micro-fan 5, the control button 27 is pressed to start the micro-fan 5, and the breeze blown by the micro-fan 5 produces a slight cooling, which is connected to the lens 2 through the tube 6. 2. A cooling effect is produced, so that the surface temperature of the lens 2 is lowered so that the water vapor disappears, and the wearer's eyes are not affected, and the use effect of the smart glasses is improved.

Referring to Fig. 1 and Fig. 2, there are six groups of through pipes 6 fixedly installed and evenly distributed. When the wearer enters a warmer environment from a colder environment, under the action of liquefaction, the cold air on the lens 2 meets the The water droplets generated by heat absorption and liquefaction are attached to the inner and outer surfaces of the lens 2. Manually press down the insert A4. The rubber insert A4 moves down slightly in the slot A3 and squeezes the control button 27 fixedly installed on the outer wall of the lower side of the micro fan 5. , the control button 27 is pressed to start the micro-fan 5, the breeze blown by the micro-fan 5 produces a slight cooling effect, and the lens 2 has a cooling effect through the passage 6 connected to the lens 2, so that the surface temperature of the lens 2 is lowered so that the water vapor disappear, and will not affect the wearer's eyes, which improves the use effect of the smart glasses.

Referring to FIG. 1 and FIG. 4 , the display panel 12 is composed of three transparent glass layers: a pixel layer, a liquid crystal layer and an electrode layer. When smart glasses are required, the lower ends of the connecting rods 11 on the left and right sides of the display panel 12 are fixedly installed. The insert block B9 is aligned with the slot B8 in the fixed block 7 on the left and right sides of the frame 1, and the insert block B9 is inserted into the slot B8, so that the guide plate fixedly installed at the lower end of the insert block B9 is fixedly installed in the slot B8. The guide sheet is attached, so that the display panel 12, the photoresistor 25, the wireless signal adapter 26 and the battery form a closed circuit, wherein the display panel 12 is composed of three transparent glass layers: the pixel layer, the liquid crystal layer and the electrode layer. The converter 26 is connected with the mobile phone hotspot, and transmits the weather and call information of the mobile phone to the wireless signal adapter 26 through the hotspot radio wave. The signal is transmitted to the photoresistor 25 of the circuit through the transistor, and the electrical signal passing through the photoresistor 25 is transmitted to the logic board in the display panel 12 through the wire, and the logic board sends the signal board to obtain the image signal. That is to control the flipping action of the liquid crystal molecules, so that the liquid crystal arrangement becomes orderly, so that the light can pass easily, and the signal sent by the mobile phone is displayed on the display panel 12 through the image letter, and the user can directly watch the mobile phone through the lens 2. Weather and call information, the higher the light intensity received by the photoresistor 25, the smaller the resistance, the smaller the resistance, the greater the current through the photoresistor 25, the greater the voltage, so that the light signal transmitted to the display panel 12 through the transistor The stronger the intensity, the higher the brightness of the image signal displayed on the display panel 12. If the light intensity received by the photoresistor 25 is lower, the resistance is larger, and the current passing through the photoresistor 25 is smaller, and the voltage is smaller. The weaker the intensity of the optical signal transmitted to the display panel 12 through the static air tank, the lower the brightness of the image signal. If the display device is not needed, directly pull out the display panel 12 to the front, so that the plug B9 moves forward from the slot B8 The display panel 12 can be removed by moving and separating. The structure of the display panel 12 is relatively fragile. The rubber gasket 13 fixedly installed on the outside protects the display panel 12 as a whole, avoids damage to the display panel 12 due to impact, and improves the use effect of the smart glasses. .

1 and 6 , the shape of the spacer 24 is wavy and is made of rubber. When the smart glasses need to be worn, the rotary knob 16 is manually rotated, and the rotation of the rotary knob 16 drives the rotating rod 17 to rotate, and the rotating rod 17 The rotation drives the screw block A18 fixedly installed at the left end to rotate. The screw block A18 is threaded through the outer wall to match the outer wall thread of the screw block B20. The rotation of the screw block B20 drives the screw 19 to rotate. The screw thread is matched to drive the screw sleeve 21 to rotate and move up and down on the outer wall of the screw 19. The up and down movement of the screw sleeve 21 drives the bearing sleeve 22 to move up and down. The position held by the wearer's frame 15 adjusts the position of the spacer 24, thereby making the wearer's two ear frames more comfortable and improving the use effect of the smart glasses.

Referring to FIGS. 1 and 4 , the gasket 13 is made of soft rubber. When smart glasses need to be used, align the inserts B9 at the lower end of the connecting rods 11 on the left and right sides of the display panel 12 to the left and right sides of the frame 1 and fix them. Install the slot B8 in the fixed block 7, insert the insert block B9 into the slot B8, and make the guide piece fixedly installed at the lower end of the insert block B9 fit with the guide piece fixedly installed in the slot B8, so that the display board 12, The photoresistor 25, the wireless signal adapter 26 and the battery form a closed circuit, in which the display panel 12 is composed of three transparent glass layers: a pixel layer, a liquid crystal layer and an electrode layer. The wireless signal adapter 26 is connected to the mobile phone hotspot to connect the mobile phone The weather and call information are transmitted to the wireless signal adapter 26 through hotspot radio waves, and the wireless signal adapter 26 decodes and analyzes the radio waves through the decoder installed inside, and converts them into electrical signals that are transmitted to the photoresistor 25 of the circuit through a transistor. The electrical signal passing through the photoresistor 25 is transmitted to the logic board in the display panel 12 through wires, and the logic board sends the signal board to obtain the image signal. After the logic operation is performed, the output controls the TFT switch, that is, the flipping action of the liquid crystal molecules is controlled, so that the liquid crystal is arranged It becomes orderly, so that the light can pass easily, and the signal sent by the mobile phone is displayed on the display panel 12 through the image letter. The user can directly view the weather and call information sent by the mobile phone through the lens 2, and the photosensitive resistor 25 receives it. The higher the light intensity, the smaller the resistance, the smaller the resistance, the greater the current through the photoresistor 25, the greater the voltage, so that the intensity of the light signal transmitted to the display panel 12 through the transistor is stronger, so that the display on the display panel 12 is stronger. The higher the brightness of the image signal on the photoresistor, the lower the light intensity received by the photoresistor 25, the greater the resistance, and the smaller the current passing through the photoresistor 25, the smaller the voltage, so that the light transmitted to the display panel 12 through the static gas tank will be smaller. The weaker the signal strength, the lower the brightness of the image signal. If you do not need to use the display device, directly pull out the display board 12 to the front, so that the plug B9 moves forward and separates from the slot B8, then the display board 12 can be removed to display the The structure of the board 12 is relatively fragile, and the externally fixed rubber gasket 13 protects the display board 12 as a whole, avoids damage to the display board 12 due to impact, and improves the use effect of the smart glasses.

Referring to FIG. 1, the output end of the battery 10 and the input end of the wireless signal adapter 26 are electrically connected by wires, and the output end of the wireless signal adapter 26 is connected with the input end of the photoresistor 25 by wires, and the photoresistor is connected by wires. The output end of 25 is electrically connected to the input end of the display panel 12 through wires.

Among them, the battery 10, the wireless signal adapter 26, the photoresistor 25 and the micro fan 5 are products of the prior art. The battery 10 is CR2032, the manufacturer is Nanfu, the photoresistor 25 is MZ72, the manufacturer is Risym, and the wireless signal The model of the adapter 26 is HFD4-3, the manufacturer is Hongfa, the model of the micro fan 5 is RFB1804, and the manufacturer is RISUN, which will not be repeated here.

The embodiment of the present invention provides an adaptive transparent display device for smart glasses. When the smart glasses need to be worn, the rotary knob 16 is manually rotated. The screw block A18 rotates, the screw block A18 is threaded through the outer wall to match with the outer wall thread of the screw block B20, the rotation of the screw block B20 drives the screw 19 to rotate, and the screw 19 is cut through the outer wall. The rod sleeve 21 rotates and moves up and down on the outer wall of the screw 19. The up and down movement of the screw sleeve 21 drives the bearing sleeve 22 to move up and down. Adjust the position of the spacer 24 to make the wearer's two ear frames more comfortable. When the smart glasses need to be used, align the insert B9 at the lower end of the connecting rod 11 on the left and right sides of the display panel 12 with the frame 1 Install the slot B8 in the fixing block 7 on the left and right sides, and insert the inserting block B9 into the slot B8, so that the guide piece fixedly installed at the lower end of the inserting block B9 fits with the guide piece fixedly installed in the slot B8, so that the The display panel 12, the photoresistor 25, the wireless signal adapter 26 and the battery form a closed circuit, wherein the display panel 12 is composed of three transparent glass layers: the pixel layer, the liquid crystal layer and the electrode layer. The wireless signal adapter 26 is similar to the mobile phone hotspot. Connect, transmit the weather and call information of the mobile phone to the wireless signal adapter 26 through hotspot radio waves. The photoresistor 25 transmits the electrical signal through the photoresistor 25 to the logic board in the display panel 12 through the wire, and the logic board sends the signal board to obtain the image signal. After the logic operation is performed, the output controls the TFT switch, that is, controls the flipping action of the liquid crystal molecules. , so that the liquid crystal arrangement becomes orderly, the light is easy to pass, the signal sent by the mobile phone is displayed on the display panel 12 through the image letter, and the user can directly view the weather and call information sent by the mobile phone through the lens 2, The higher the light intensity received by the photoresistor 25, the smaller the resistance, the smaller the resistance, the greater the current through the photoresistor 25, the greater the voltage, so that the intensity of the light signal transmitted to the display panel 12 through the transistor is stronger, so that the display The higher the brightness of the image signal on the display panel 12, the higher the resistance if the light intensity received by the photoresistor 25 is lower, the smaller the current passing through the photoresistor 25, the lower the voltage, so that the static gas tank transmits to the display The weaker the optical signal strength of the board 12, the lower the brightness of the image signal. If the display device is not needed, directly pull out the display board 12 to the front, and move the plug B9 forward from the slot B8 to separate it, then the display can be removed. Board 12, the structure of the display board 12 is relatively fragile, and the rubber gasket 13 fixedly installed on the outside protects the display board 12 as a whole to avoid damage to the display board 12 due to impact. When the wearer enters a warmer environment from a colder environment , under the action of liquefaction, the cold air on the lens 2 absorbs heat when it is heated The water droplets generated by liquefaction are attached to the inner and outer surfaces of the lens 2. Manually press the insert block A4 downward. The rubber insert block A4 moves down slightly in the slot A3 and squeezes the control button 27 fixedly installed on the upper end of the lower micro fan 5. The control button 27 is pressed to start the micro-fan 5, the breeze blown by the micro-fan 5 produces a slight cooling effect, and the through-pipe 6 connected to the lens 2 has a cooling effect on the lens 2, so that the surface temperature of the lens 2 is lowered and the water vapor disappears.

It should be noted that the present invention is an adaptive transparent display device for smart glasses, including a battery 10, a wireless signal adapter 26, a photoresistor 25 and a micro-fan 5, and the components are all common standard parts or those skilled in the art. The structures and principles of the components known to the person are all known to the skilled person through technical manuals or through routine experimental methods.

Obviously, those skilled in the art can make various changes and modifications to the embodiments of the present invention without departing from the spirit and scope of the embodiments of the present invention. Thus, provided that these modifications and variations of the embodiments of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. An adaptive transparent display device for smart glasses, characterized in that the smart glasses comprise a frame (1), and a lens (2) is fixedly installed inside the frame (1), and the lens (2) A slot A (3) is fixedly installed inside the upper ends of the left and right sides, a plug A (4) is installed inside the slot A (3), and a micro fan (5) is installed on the lower side of the plug A (4). , a control button (27) is fixedly installed on the outer wall of the upper end of the micro fan (5), a through pipe (6) is fixedly installed on the inner side of the slot A (3), and the outer walls of the left and right sides of the mirror frame (1) are fixedly installed with A fixed block (7), a slot B (8) is fixedly installed on the inner wall of the upper end of the fixed block (7), and an insert block B (9) is fixed inside the slot B (8), and the insert block B (9) ) A connecting rod (11) is fixedly connected to the upper end, a display panel (12) is fixedly installed in the middle of the connecting rod (11), a washer (13) is fixedly sleeved on the outside of the display panel (12), and the fixing block ( 7) A battery (10) is fixedly installed on the outer wall of the right front end, a photoresistor (25) is fixedly installed on the outer wall of the left front end of the connecting rod (11), and a wireless signal connection is fixedly installed at the left front end of the fixing block (7). A rotator (26), a rotating shaft (14) is rotatably installed on the lower side of the fixing block (7), a mirror frame (15) is rotatably installed on the lower end of the rotating shaft (14), and the outer side wall of the mirror frame (15) is rotatably installed There is a rotary button (16), the inner end of the rotary button (16) is rotatably installed with a rotary rod (17) through the mirror frame (15), and the inner end of the rotary rod (17) is fixedly installed with a screw block A (18), A screw (19) is rotatably installed inside the lower end of the frame (15), a screw block B (20) is fixedly installed at the upper end of the screw (19), and a screw sleeve (21) is rotatably sleeved on the outer wall of the screw (19). ), the outer wall of the screw sleeve (21) is fixedly sleeved with a bearing sleeve (22), the inner side wall of the mirror frame (15) is fixedly installed with a sliding groove (23), and the inner side of the bearing sleeve (22) runs through the sliding groove (23) A spacer (24) is fixedly installed. 2. The self-adaptive transparent display device for smart glasses according to claim 1, wherein the outer wall of the screw (19) is fixedly installed with threads, and the inner wall of the screw sleeve (21) is fixedly installed with threads. The thread matched with the thread on the outer wall of the screw rod (19) constitutes a rotating structure. 3. An adaptive transparent display device for smart glasses according to claim 1, wherein the outer wall of the screw block A (18) is cut with threads, and the outer wall of the screw block B (20) is cut with threads. The thread matched with the thread of the outer wall of the screw block A (18) constitutes a rotating structure. 4. An adaptive transparent display device for smart glasses according to claim 1, wherein a slot B (8) is fixedly installed inside the upper end of the fixing block (7), and the connecting rod (11) The insert block B(9) matched with the slot B(8) is fixedly installed at the lower end to form an embedded fixed structure. 5. The self-adaptive transparent display device for smart glasses according to claim 1, characterized in that, the upper ends of the left and right sides of the mirror frame (1) are fixedly installed inside the mirror frame (1) to cooperate with the plug A (4) The slot A(3) constitutes an embedded fixed structure. 6 . The adaptive transparent display device for smart glasses according to claim 1 , wherein, six groups of the through pipes ( 6 ) are fixedly installed and evenly distributed. 7 . 7. An adaptive transparent display device for smart glasses according to claim 1, wherein the display panel (12) is composed of three transparent glass layers: a pixel layer, a liquid crystal layer and an electrode layer. 8 . The adaptive transparent display device for smart glasses according to claim 1 , wherein the spacer ( 24 ) is wavy in shape and made of rubber. 9 . 9 . The adaptive transparent display device for smart glasses according to claim 1 , wherein the gasket ( 13 ) is made of soft rubber. 10 . 10 . The adaptive transparent display device for smart glasses according to claim 1 , wherein the output end of the battery ( 10 ) and the input end of the wireless signal adapter ( 26 ) are formed by wires. 11 . Electrical connection, the output end of the wireless signal adapter (26) is connected with the input end of the photoresistor (25) through a wire, and the output end of the photoresistor (25) and the input end of the display panel (12) pass through The wires form the electrical connection.

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