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CN-224216953-U - Three-dimensional indoor space digital guide interaction device

CN224216953UCN 224216953 UCN224216953 UCN 224216953UCN-224216953-U

Abstract

The utility model relates to the field of digital guide interaction, in particular to a three-dimensional indoor space digital guide interaction device which comprises an AR (augmented reality) glasses part, mounting parts, wearing parts and the like, wherein the AR glasses part is clamped with two mounting parts, and each mounting part is fixedly connected with one wearing part. Through setting AR glasses into AR glasses portion, installation department and wearing portion, and set up the sliding block, press the pole, L shape fixed block, spring one, bolt one, spring two, the catch bar, push away the cap, bolt two and spring three's mode, realize AR glasses portion, installation department and the work of wearing the quick installation and the dismantlement of portion, simultaneously, realize the quick installation and the work of dismantlement of AR glasses portion and myopia glasses, in order to avoid the crowd that need wear myopia glasses will not wear myopia glasses after wearing AR glasses, then the crowd that need wear myopia glasses can only walk with the blurred state of sight, and then influence the problem of the crowd that need wear myopia glasses's walk experience.

Inventors

  • ZHANG YIXIN
  • XIAO PO
  • ZHANG CHUFENG
  • LI FANG
  • Ye Tongying

Assignees

  • 深圳亚泰飞越设计顾问有限公司

Dates

Publication Date
20260508
Application Date
20250526

Claims (7)

  1. 1. The three-dimensional indoor space digital guide interaction device comprises an AR glasses part (1), two mounting parts (2) are clamped on the AR glasses part (1), one wearing part (3) is clamped on each mounting part (2), and the three-dimensional indoor space digital guide interaction device is characterized in that four cavities (101) are arranged on the AR glasses part (1), one sliding block (4) is slidingly connected to each cavity (101), a pressing rod (5) is slidingly connected to each sliding block (4), one U-shaped sliding groove (102) is formed in each cavity (101), an L-shaped fixing block (6) is fixedly connected to each pressing rod (5), each L-shaped fixing block (6) is correspondingly connected with each U-shaped sliding groove (102) in a sliding mode, each L-shaped fixing block (6) is clamped on the mounting part (2), a spring I (7) is fixedly connected to each L-shaped fixing block (6), each spring I (7) is fixedly connected with a corresponding sliding block (4), two round holes (401) are formed in each sliding block (4), each pressing rod (5) is fixedly connected to each round hole (401), each round hole (501) is connected to each round hole (501) in a sliding mode, each first bolt (8) is inserted into the round hole (401) and the through hole (501), at least one second spring (9) is fixedly connected to each first bolt (8), the second springs (9) are fixedly connected with the AR glasses (1), each cavity (101) is slidably connected with a pushing rod (10), each pushing rod (10) is contacted with the first bolt (8), each pushing rod (10) is fixedly connected with a pushing cap (11), all pushing caps (11) are slidably connected with the AR glasses (1), each cavity (101) is slidably connected with a second bolt (12), each second bolt (12) is contacted with the pushing rod (10), each second bolt (12) is aligned with the corresponding round hole (401), each second bolt (12) is fixedly connected with a third spring (13), and each third spring (13) is fixedly connected with the AR glasses (1).
  2. 2. The three-dimensional indoor space digital guide interaction device according to claim 1, wherein the AR glasses part (1) is provided with an earphone hole (103).
  3. 3. The three-dimensional indoor space digital guide interaction device according to claim 2, further comprising a T-shaped piece (111), wherein the T-shaped piece (111) is screwed to the AR glasses part (1).
  4. 4. The three-dimensional indoor space digital guide interaction device according to claim 3 is characterized by further comprising an L-shaped clamping plate (112) and a light shielding sheet (113), wherein the two L-shaped clamping plates (112) are fixedly connected with the AR glasses part (1), and the light shielding sheet (113) is jointly inserted into the two L-shaped clamping plates (112).
  5. 5. The three-dimensional indoor space digital guide interaction device according to any one of claims 2-4, further comprising a box body (211), a transmission controller (212), mounting plates (213) and plugs (214), wherein the box body (211) is arranged below the AR glasses part (1), the transmission controller (212) is fixedly connected with the box body (211), the box body (211) is slidably connected with a plurality of mounting plates (213), each mounting plate (213) is fixedly connected with one plug (214), and the AR glasses part (1) is provided with data receiving holes (104).
  6. 6. The three-dimensional indoor space digital guide interaction device according to claim 5, further comprising positioning plates (215), wherein each mounting plate (213) is fixedly connected with two positioning plates (215).
  7. 7. The three-dimensional indoor space digital guide interaction device according to claim 6, further comprising four springs (216) and pressure sensors (217), wherein at least one four springs (216) are fixedly connected to each mounting plate (213), one pressure sensor (217) is connected to each four springs (216), and all the pressure sensors (217) are fixedly connected with the box body (211).

Description

Three-dimensional indoor space digital guide interaction device Technical Field The utility model relates to the field of digital guide interaction, in particular to a three-dimensional indoor space digital guide interaction device. Background In the prior art, equipment with digital technology and an interactive interface is generally adopted to provide navigation and services for tourists, wherein AR glasses are included, detailed floor plans and navigation guidance are obtained through the AR glasses, and the tourists are helped to find destinations or obtain required information more conveniently in a complex indoor environment, so that the experience of the tourists is improved. However, because the existing AR glasses are usually integrated, and there are two kinds of people who need to wear the myopia glasses and do not need to wear the myopia glasses among tourists, the people who need to wear the myopia glasses will not wear the myopia glasses after wearing the AR glasses, and then the people who need to wear the myopia glasses can only walk in a blurred vision state, and then the walk experience of the people who need to wear the myopia glasses is affected. Disclosure of utility model In order to overcome the defect that a crowd needing to wear the myopia glasses cannot wear the myopia glasses after wearing the AR glasses, the crowd needing to wear the myopia glasses can only walk in a blurred vision state, and further the walk experience of the crowd needing to wear the myopia glasses is affected, the utility model provides the three-dimensional indoor space digital guide interaction device. The technical scheme is that the three-dimensional indoor space digital guide interaction device comprises an AR glasses part, wherein two mounting parts are clamped and connected to the AR glasses part, each mounting part is fixedly connected with one wearing part, the three-dimensional indoor space digital guide interaction device is characterized in that four cavities are arranged on the AR glasses part, each cavity is connected with one sliding block in a sliding mode, each sliding block is connected with a pressing rod in a sliding mode, each cavity is provided with a U-shaped sliding groove, each pressing rod is fixedly connected with an L-shaped fixing block, each L-shaped fixing block corresponds to the U-shaped sliding groove in a sliding mode, each L-shaped fixing block is clamped and connected with the mounting part, each L-shaped fixing block is fixedly connected with a spring I, each spring I is fixedly connected with the corresponding sliding block, each sliding block is provided with two round holes, each pressing rod is provided with a through hole, each through hole is aligned with the round hole, each first pin is connected with the round hole in a sliding mode, each first pin is fixedly connected with at least one spring II, each spring II is fixedly connected with the AR glass part, each L-shaped fixing block corresponds to the U-shaped sliding groove, each L-shaped fixing block is fixedly connected with the mounting part is clamped and connected with the mounting part, each L-shaped fixing block is fixedly connected with the mounting part, each spring I is fixedly connected with two round holes is connected with two round holes, each round pin is aligned with each round hole, each round pin is connected with each round pin through hole, each round pin is connected with the round pin through hole, each round bolt and each round bolt is inserted through round hole, each round plug has a round plug, each round plug, and each round plug has a round plug and a round plug, and a round plug. Optionally, the AR glasses part is provided with an earphone hole. Optionally, the glasses also comprise T-shaped pieces, and the AR glasses part is screwed with the T-shaped pieces. Optionally, the anti-dazzling screen also comprises an L-shaped clamping plate and an anti-dazzling screen, wherein the AR glasses part is fixedly connected with two L-shaped clamping plates, and the two L-shaped clamping plates are jointly spliced with the anti-dazzling screen. The portable glasses comprise a plurality of glasses body, and are characterized by further comprising a box body, a transmission controller, mounting plates and plugs, wherein the box body is arranged below the glasses body, the transmission controller is fixedly connected with the box body, the box body is connected with the mounting plates in a sliding mode, each mounting plate is fixedly connected with one plug, and the glasses body is provided with a data receiving hole. Optionally, the device also comprises positioning plates, and each mounting plate is fixedly connected with two positioning plates. Optionally, the device also comprises four springs and pressure sensors, wherein each mounting plate is fixedly connected with at least one four spring, each four spring is connected with one pressure sensor, and all the pressure sensors are fixedly con