An interactive imaging device

By designing adjustable and locking components, the problems of user comfort and immersive experience caused by the fixed angle of interactive imaging devices are solved, enabling flexible adjustment of the device angle and convenient movement.

CN224434026UActive Publication Date: 2026-06-30WEIHAI MENGHU NETWORK TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WEIHAI MENGHU NETWORK TECHNOLOGY CO LTD
Filing Date
2025-08-27
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The fixed display angle of existing interactive imaging devices limits the viewing angle for users of different heights, reducing user comfort and immersive experience.

Method used

By setting up an adjustment component, the screw and slider are connected by a thread to move a rectangular slider, and the square and round connecting rod pushes the square and round protrusions to adjust the angle of the interactive module. Combined with a locking component to prevent accidental separation, the device angle can be flexibly adjusted.

Benefits of technology

It enables adjustable angles for interactive imaging devices, improving user observation comfort and immersive experience, preventing damage from accidental activation, and facilitating easy movement.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224434026U_ABST
    Figure CN224434026U_ABST
Patent Text Reader

Abstract

The utility model discloses an interactive imaging device relates to interactive imaging device technical field, the utility model discloses an interactive mechanism, the interactive mechanism is used to the output picture to the user and will the operation of user reverse input interactive equipment, the interactive mechanism includes an interactive module and two small circular arc blocks, the back center of interactive module is provided with the screw rod, the utility model discloses an adjusting assembly is set up, specifically is the clockwise rotation screw rod, makes it through the thread connection drive rectangular slide block displacement, makes rectangular slide block along the slide rail displacement to the left side right side rotation connection's square round link rod jointly promotes square round boss forward displacement, so can through the displacement of square round boss the angle of interactive module is adjusted, makes the equipment can adjust to the angle of convenient user observation, avoids the comfort of user when using to reduce because of the observation angle is limited, and further guarantees the immersive experience of user.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model belongs to the technical field of interactive imaging devices, and in particular relates to an interactive imaging device. Background Technology

[0002] Interactive imaging devices refer to display systems that integrate optical imaging and human-computer interaction technologies. They are mainly used to display and control aerial or floating images. Based on the principle of light field reconstruction, interactive imaging devices use components such as negative refractive flat lens (DCT-plate) and infrared laser sensors to project images into the air, forming a touchable virtual interface. Users can perform non-contact operations through gestures or touch. Interactive imaging devices support complex interface displays and precise interactions, avoiding physical contact contamination. Due to their superior characteristics, interactive imaging devices are widely used in automotive interiors, medical, educational, and entertainment fields. The display device is one of the core components of interactive imaging devices, serving as the input and output module for interactive imaging data. However, the angle of the display device is relatively fixed, which limits the viewing angle for users of different heights, reducing user comfort and weakening the user's immersive experience. To address this, we propose an interactive imaging device. Utility Model Content

[0003] The purpose of this invention is to provide an interactive imaging device. By setting an adjustment component, specifically rotating a lead screw clockwise, it drives a rectangular slider to move downwards along a slide rail. This slider, along with a square-round connecting rod rotating on the left and right sides, pushes a square-round protrusion forward. This displacement of the protrusion adjusts the angle of the interactive module, allowing the device to be adjusted to a user-friendly viewing angle. This avoids reduced user comfort due to limited viewing angles, thus ensuring a more immersive experience. This invention addresses the problem that existing interactive imaging devices, where the display device is a core component and serves as the input and output module for interactive imaging data, have a relatively fixed angle. This limits the viewing angle for users of different heights, reducing user comfort and ultimately weakening the immersive experience.

[0004] To solve the above-mentioned technical problems, this utility model is achieved through the following technical solution:

[0005] This utility model relates to an interactive imaging device, comprising an interactive mechanism. The interactive mechanism outputs images to the user and inputs the user's operations back into the interactive device. The interactive mechanism includes an interactive module and two small arc blocks. A lead screw is provided at the center of the back of the interactive module. Slide rails are provided on the left and right sides of the lead screw. A rectangular slider is sleeved on the outer side of the lead screw and slide rails. A square-round protrusion is provided on the bottom front side of the rectangular slider. The two small arc blocks are respectively provided on the left and right sides of the interactive module. A large arc block is provided on the back of each of the two small arc blocks. A pull rod is provided at the bottom center of the large arc block. The interactive module is tilted, and the top of the interactive module is tilted to the rear. The outer back walls of the two trapezoidal baffles 121 are installed on the outer front wall of the O-shaped rotating plate 1121. The two slide rails are horizontally mirrored left and right with the lead screw as the center. The interactive module is model ASKA3D-200NT. The interactive module recognizes the user's operations through a built-in infrared camera and other devices.

[0006] Furthermore, the interactive mechanism includes an adjustment component for adjusting the angle of the display module of the imaging device so that the display module is at an angle convenient for user operation, and a locking component for locking the display module together with the adjustment component to prevent the adjustment component from accidentally separating from it. The locking component is disposed on the outside of the adjustment component, and the outer wall of the locking component abuts against the outer wall of the adjustment component.

[0007] Furthermore, the adjustment component includes an irregularly shaped outer box, the front outer wall of which is inclined, a rectangular groove is formed at the center of the inclined front surface of the irregularly shaped outer box, the rectangular groove of which extends rearward to the interior center of the irregularly shaped outer box, the interactive module is disposed on the front of the irregularly shaped outer box, an O-shaped rotating plate is fitted around the outer wall of the interactive module, the inclined surfaces of the O-shaped rotating plate and the back of the interactive module are both in contact with the inclined surface of the front of the irregularly shaped outer box, the inclination angles of the O-shaped rotating plate and the interactive module are the same as the inclination angle of the inclined surface of the front of the irregularly shaped outer box, the bottom of the O-shaped rotating plate is rotatably connected to the bottom of the front of the irregularly shaped outer box, the lead screw is disposed at the center of the rear side inside the irregularly shaped outer box, the bottom of the lead screw is rotatably connected to the irregularly shaped outer box, the top of the lead screw extends upward through the irregularly shaped outer box and is rotatably connected, and the top and bottom outer walls of the two slide rails are both installed on the inner wall of the irregularly shaped outer box.

[0008] Furthermore, the slide rail is slidably connected to the rectangular slider, and the rectangular slider has an internal thread at its center. The rectangular slider is connected to the outer wall of the lead screw through the internal thread at its center. The square and round protrusion is installed on the bottom outer wall of the inclined surface on the back of the interactive module. Square and round connecting rods are provided on the left and right sides of the rectangular slider and the square and round protrusion. The two square and round connecting rods are horizontally mirrored with the rectangular slider as the center. The front sides of the two square and round connecting rods that are close to each other are rotatably connected to the side of the square and round protrusion, and the rear sides of the two square and round connecting rods that are close to each other are rotatably connected to the side of the rectangular slider. A motor is installed at the center of the top outer wall of the irregular outer box. By setting two slide rails, the movement of the rectangular slider can be limited to prevent the rectangular slider from deflecting and getting stuck when sliding. The slide rails can also provide guidance for the rectangular slider so that it can move horizontally.

[0009] Furthermore, the bottom output end of the motor is on the same horizontal line as the lead screw, the tilt angle of the motor is the same as that of the lead screw, the bottom output end of the motor is installed at the center of the top outer wall of the lead screw through a coupling, a motor housing is fitted around the motor, the motor model is YE4-80M1-2 series three-phase asynchronous motor, and the motor is also compatible with SINAMICS-V20 frequency converter, the bottom outer wall of the motor housing is installed on the top outer wall of the irregular outer box, the top of the motor housing has a lead screw I-shaped guide slot, the four I-shaped guide slots of the motor housing are arranged in a circumferential array with the motor as the center, a rectangular baffle is installed on the front side of the notch on the front of the irregular outer box, the outer wall of the rectangular baffle fits with the inner wall of the opening of the irregular outer box, and the side outer wall of the rectangular baffle is installed on the inner wall of the irregular outer box;

[0010] Furthermore, irregularly shaped supports are installed at the four edges of the back of the rectangular baffle. The four irregularly shaped supports are installed on the inner wall of the irregularly shaped outer box on the side that is far apart from each other. The outer wall of the front of the rectangular baffle can fit against the outer wall of the back of the O-shaped rotating plate and the interactive module. An arc surface is provided at the center of the front of the rectangular baffle. The width of the arc surface is adapted to the lateral length of the square and round protrusion. Straight slots are provided on the left and right sides of the arc surface. The arc surface can accommodate the square and round protrusion, and the straight slots allow the square and round connecting rod to move without interference. Two straight slots are provided at the edges of the outer wall of the rectangular baffle. The two straight slots extend backward and penetrate the rectangular baffle. The square and round connecting rod moves inside the straight slots.

[0011] Furthermore, the locking component includes two trapezoidal baffles, which are respectively disposed on the left and right sides of the top of the front outer wall of the interactive module. The two trapezoidal baffles are horizontally mirrored with respect to the interactive module. Two small arc blocks are respectively installed at the center of the back outer wall of the trapezoidal baffles. The large arc block is disposed directly behind the back of the trapezoidal baffles and the small arc blocks. The rearward side of the two small arc blocks is installed on the side outer wall of the irregular outer box. A cavity is opened in the center of the interior of the two large arc blocks.

[0012] Furthermore, the cavity one extends forward and penetrates the outer wall of the large arc block. The size of the cavity one is adapted to the size of the small arc block and is inserted into it. A rectangular protrusion is provided at the bottom of the large arc block. The top outer wall of the rectangular protrusion is set with an arc surface. The arc surface of the top of the rectangular protrusion is installed on the bottom outer wall of the large arc block. A rectangular cavity two is opened inside the rectangular protrusion. The pull rod is set at the center inside the cavity two. The top and bottom of the pull rod both penetrate the rectangular protrusion and extend outward. The top of the pull rod extends upward and penetrates the small arc block and the large arc block. By setting the mutual adaptation between the small arc block and the cavity one inside the large arc block, the small arc block and the cavity one can fit together tightly.

[0013] Furthermore, the outer diameter of the outer wall of the pull rod is adapted to and slidably connected to the inner diameter of the inner wall at the penetration point of the small and large arc blocks. A sliding plate is provided below the top of the cavity two. The top outer wall of the sliding plate fits against the top inner wall of the cavity two. The sliding plate is installed on the outer periphery of the outer wall of the pull rod. A spring is provided below the sliding plate. The spring is sleeved on the outer periphery of the bottom outer wall of the pull rod. The top outer wall of the spring is installed on the bottom outer wall of the sliding plate. The bottom outer wall of the spring is installed on the bottom inner wall of the cavity two. By setting the spring, the spring can be compressed when squeezed. After the pressure on the spring is released, the spring will release the pressure outward and push the sliding plate upward. The bottom outer wall of the sliding plate and the bottom inner wall of the cavity two are flexibly connected to each other by the spring. An O-shaped handle is installed at the center of the bottom outer wall of the pull rod. The O-shaped handle is O-shaped.

[0014] This utility model has the following beneficial effects:

[0015] 1. This utility model, by setting an adjustment component, specifically by rotating the lead screw clockwise, causes the rectangular slider to move downward along the slide rail, and the square and round connecting rods connected to the left and right sides jointly push the square and round protrusions forward. In this way, the angle of the interactive module can be adjusted by the displacement of the square and round protrusions, so that the device can be adjusted to an angle that is convenient for the user to observe, avoiding the reduction of user comfort due to the limited observation angle, and thus ensuring the user's immersive experience.

[0016] 2. This utility model uses a locking component, specifically by inserting a small arc block into a large arc block, then releasing the lever, causing the spring to compress and rebound upwards, and then using the spring's rebound to insert the lever into the small arc block. This locks the interactive module, preventing accidental opening and damage when the device is moved, and allowing users to move the device conveniently.

[0017] Of course, any product implementing this utility model does not necessarily need to achieve all of the advantages described above at the same time. Attached Figure Description

[0018] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0019] Figure 1 This is a schematic diagram of the overall front structure of this utility model;

[0020] Figure 2 This is a schematic diagram of the arc surface structure of this utility model;

[0021] Figure 3 This is a schematic cross-sectional view of the irregularly shaped outer box of this utility model;

[0022] Figure 4 This is a schematic cross-sectional view of the large arc block of this utility model;

[0023] Figure 5 This is a schematic diagram of the O-shaped handle structure of this utility model.

[0024] The attached diagram lists the components represented by each number as follows:

[0025] 1. Interactive mechanism; 11. Adjustment component; 111. Irregular outer box; 1121. O-shaped rotating plate; 1122. Interactive module; 1131. Lead screw; 1132. Slide rail; 1141. Rectangular slider; 1142. Square and round protrusion; 115. Square and round connecting rod; 1161. Motor; 1162. Motor housing; 1171. Rectangular baffle; 1172. Irregular support block; 1181. Circular arc surface; 1182. Straight groove; 12. Locking component; 121. Trapezoidal baffle; 122. Small arc block; 123. Large arc block; 124. Cavity one; 125. Rectangular protrusion; 126. Cavity two; 1271. Slide plate; 1272. Pull rod; 128. Spring; 129. O-shaped handle. Detailed Implementation

[0026] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of the present utility model.

[0027] Please see Figures 1-5 As shown, this utility model is an interactive imaging device, including an interactive mechanism 1. The interactive mechanism 1 is used to output images to the user and input the user's operations back into the interactive device. The interactive mechanism 1 includes an interactive module 1122 and two small arc blocks 122. A lead screw 1131 is provided at the center of the back of the interactive module 1122. Slide rails 1132 are provided on the left and right sides of the lead screw 1131. A rectangular slider 1141 is sleeved on the outer side of the lead screw 1131 and the slide rails 1132. A square-round protrusion 1142 is provided on the front side of the bottom of the rectangular slider 1141. The two small arc blocks 122 are respectively provided on the left and right sides of the interactive module 1122. A large circle is provided on the back of each of the two small arc blocks 122. Arc block 123, a pull rod 1272 is provided at the bottom center of the large arc block 123, the interactive module 1122 is tilted, the top of the interactive module 1122 is deflected to the rear, the two slide rails 1132 are horizontally mirrored with the lead screw 1131 as the center, the interactive mechanism 1 includes an adjustment component 11, the adjustment component 11 is used to adjust the angle of the display module of the imaging device so that the display module is at an angle that is convenient for user operation, and a locking component 12, the locking component 12 is used to lock the display module and the adjustment component 11 together to prevent the adjustment component 11 from being accidentally separated from it, the locking component 12 is provided on the outside of the adjustment component 11, and the outer wall of the locking component 12 abuts against the outer wall of the adjustment component 11.

[0028] The adjustment component 11 includes an irregularly shaped outer box 111. The front outer wall of the irregularly shaped outer box 111 is inclined. A rectangular groove is formed at the center of the inclined front wall of the irregularly shaped outer box 111. The rectangular groove of the irregularly shaped outer box 111 extends rearward to the center of the interior of the irregularly shaped outer box 111. An interactive module 1122 is disposed on the front of the irregularly shaped outer box 111. An O-shaped rotating plate 1121 is fitted around the outer wall of the interactive module 1122. The inclined surfaces of the back of the O-shaped rotating plate 1121 and the interactive module 1122 are both in contact with the inclined surface of the front of the irregularly shaped outer box 111. The inclination angles of the O-shaped rotating plate 1121 and the interactive module 1122 are the same as the inclination angle of the inclined surface of the front of the irregularly shaped outer box 111. The bottom of the O-shaped rotating plate 1121 is rotatably connected to the bottom of the front of the irregularly shaped outer box 111. 1131 is located at the center of the rear side inside the irregular outer box 111. The bottom of the lead screw 1131 is rotatably connected to the irregular outer box 111, and the top of the lead screw 1131 extends upward through the irregular outer box 111 and is rotatably connected. The top and bottom outer walls of the two slide rails 1132 are installed on the inner wall of the irregular outer box 111. The slide rails 1132 are slidably connected to the rectangular slider 1141. The rectangular slider 1141 has an internal thread at its center, and the rectangular slider 1141 is threaded to the outer wall of the lead screw 1131 through the internal thread at its center. The square-round protrusion 1142 is installed on the bottom outer wall of the inclined surface on the back of the interactive module 1122. Square-round connecting rods 115 are provided on the left and right sides of the rectangular slider 1141 and the square-round protrusion 1142. The two square-round connecting rods 115 are connected to the rectangular slider 1141 and the square-round protrusion 1142. 5. A rectangular slider 1141 is positioned horizontally and mirror-imagely to the left and right. The front sides of the two square-round connecting rods 115, which are close to each other, are rotatably connected to the side of the square-round protrusion 1142. The rear sides of the two square-round connecting rods 115, which are close to each other, are rotatably connected to the side of the rectangular slider 1141. A motor 1161 is installed at the center of the top outer wall of the irregular outer box 111. The bottom output end of the motor 1161 is on the same horizontal line as the lead screw 1131, and the tilt angle of the motor 1161 is the same as that of the lead screw 1131. The bottom output end of the motor 1161 is installed at the center of the top outer wall of the lead screw 1131 via a coupling. A motor housing 1162 is fitted around the motor 1161, and the bottom outer wall of the motor housing 1162 is installed on the top outer wall of the irregular outer box 111. On the wall, the top of the motor housing 1162 has a lead screw-shaped guide slot. Four lead screw-shaped guide slots of the motor housing 1162 are arranged in a circular array around the motor 1161. A rectangular baffle 1171 is installed on the front side of the notch on the front of the irregularly shaped outer box 111. The outer wall of the rectangular baffle 1171 fits into the inner wall of the opening of the irregularly shaped outer box 111. The outer side of the rectangular baffle 1171 is installed on the inner wall of the irregularly shaped outer box 111. Irregularly shaped support blocks 1172 are installed at the four edges of the back of the rectangular baffle 1171. The sides of the four irregularly shaped support blocks 1172 that are furthest from each other are installed on the inner wall of the irregularly shaped outer box 111. The outer wall of the front of the rectangular baffle 1171 can fit against the outer back wall of the O-shaped rotating plate 1121 and the interactive module 1122.A curved surface 1181 is provided at the center of the front of the rectangular baffle 1171. The width of the curved surface 1181 is adapted to the lateral length of the square and round protrusion 1142. Straight grooves 1182 are provided on the left and right sides of the curved surface 1181. Rotating the lead screw 1131 clockwise causes it to drive the rectangular slider 1141 to move through the threaded connection. The rectangular slider 1141 moves downward along the slide rail 1132, and together with the square and round connecting rods 115 rotatably connected on the left and right sides, it pushes the square and round protrusion 1142 to move downward. The forward displacement allows the angle of the interactive module 1122 to be adjusted via the displacement of the square-round protrusion 1142, enabling the device to be adjusted to an angle convenient for the user to observe. This avoids reduced user comfort due to limited viewing angle, thus ensuring an immersive user experience. Two straight slots 1182 are both located at the edge of the outer wall of the rectangular baffle 1171, extending rearward and penetrating the rectangular baffle 1171. The square-round connecting rod 115 moves within the straight slots 1182.

[0029] The locking component 12 includes two trapezoidal baffles 121, which are respectively located on the left and right sides of the top of the front outer wall of the interactive module 1122. The two trapezoidal baffles 121 are horizontally mirrored with respect to the interactive module 1122. Two small arc blocks 122 are respectively installed at the center of the back outer wall of the trapezoidal baffles 121. A large arc block 123 is located directly behind the back of the trapezoidal baffles 121 and the small arc blocks 122. The rearward side of the two small arc blocks 122 is installed on the side outer wall of the irregular outer box 111. A cavity 124 is opened in the center of the interior of each of the two large arc blocks 123. The cavity 124 faces... The front of the large arc block 123 extends and penetrates the outer wall of the front of the small arc block 123. The size of the cavity 124 is adapted to the size of the small arc block 122 and is inserted into it. A rectangular protrusion 125 is provided at the bottom of the large arc block 123. The top outer wall of the rectangular protrusion 125 is set with an arc surface. The arc surface of the top of the rectangular protrusion 125 is installed on the bottom outer wall of the large arc block 123. A rectangular cavity 126 is opened inside the rectangular protrusion 125. The pull rod 1272 is set at the center inside the cavity 126. The top and bottom of the pull rod 1272 penetrate the rectangular protrusion 125 and extend outward. The top of the pull rod 1272 extends upward and penetrates the small arc block 123. 2. The outer diameter of the outer wall of the large arc block 123 and the inner diameter of the inner wall of the small arc block 122 and the large arc block 123 through which they are penetrated are adapted to each other and slidably connected. A sliding plate 1271 is provided below the top interior of the cavity 2 126. The top outer wall of the sliding plate 1271 fits against the top inner wall of the cavity 2 126. The sliding plate 1271 is installed on the outer periphery of the outer wall of the pull rod 1272. A spring 128 is provided below the sliding plate 1271. The spring 128 is sleeved on the outer periphery of the bottom outer wall of the pull rod 1272. The top outer wall of the spring 128 is installed on the bottom outer wall of the sliding plate 1271. The bottom outer wall of the spring 128 is installed on the bottom of the cavity 2 126. On the inner wall of the device, insert the small arc block 122 into the large arc block 123, then release the pull rod 1272, causing the spring 128 to compress it and rebound upwards. Then, the spring 128 will rebound and insert the pull rod 1272 into the small arc block 122. This locks the interactive module 1122, preventing accidental opening and damage when the device is moved, and allowing the user to move the device conveniently. The bottom outer wall of the slide plate 1271 and the bottom inner wall of the cavity 126 are flexibly connected to each other by the spring 128. An O-shaped handle 129 is installed at the center of the bottom outer wall of the pull rod 1272. The O-shaped handle 129 is O-shaped.

[0030] A specific application of this embodiment is as follows: In use, pulling down the O-ring handle 129 causes the O-ring handle 129 to pull the slide plate 1271 downwards via the pull rod 1272. As the slide plate 1271 slides downwards along the inner wall of cavity 126, it compresses the spring 128, causing the spring 128 to accumulate pressure. The downward-moving pull rod 1272 will pull its top out from inside the small arc block 122 and the large arc block 123, thus ending the locking relationship between the adjusting component 11 and the locking component 12. Then, the motor 1161 inside the motor housing 1162 is started, causing the output end of the motor 1161 to drive the lead screw 1131 to rotate via the coupling. When the lead screw 1131 rotates clockwise, it will drive the rectangular slider 1141 to move downwards, causing the rectangular slider 1141 to slide downwards along the slide rail 1132. Then, the square and round connecting rods 115 rotatably connected to both sides of the rectangular slider 1141 move forward. Pushing the square-round protrusion 1142 will reverse the rotation of the lead screw 1131 when it rotates counterclockwise. Then, the square-round protrusion 1142 pushes the O-shaped rotating plate 1121 and the interactive module 1122 to flip forward, causing the O-shaped rotating plate 1121 to drive the two trapezoidal baffles 121 to flip forward. Then, the trapezoidal baffles 121 drive the small arc block 122 to move, causing the small arc block 122 to be pulled out of the cavity 124 of the large arc block 123. After the O-shaped rotating plate 1121 and the interactive module 1122 are adjusted to an angle that is convenient for the user to observe, the interactive module 1122 is activated, allowing the infrared camera built into the interactive module 1122 to interact with the user. The interactive module 1122 will emit an image beam outward, which is reflected and refracted by the micromirrors of the MMAP to suppress stray light and transmitted light, allowing only the imaging light to be focused on a designated position in the air, forming a clear, touchable floating interface for easy operation by the user.

[0031] In the description of this specification, references to terms such as "an embodiment," "example," "specific example," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

[0032] The preferred embodiments of this utility model disclosed above are merely illustrative of the present utility model. These preferred embodiments do not exhaustively describe all details, nor do they limit the present utility model to the specific implementations described. Clearly, many modifications and variations can be made based on the content of this specification. This specification selects and specifically describes these embodiments to better explain the principles and practical applications of the present utility model, thereby enabling those skilled in the art to better understand and utilize it. This utility model is limited only by the claims and their full scope and equivalents.

Claims

1. An interactive imaging apparatus, characterized by, include: Interaction mechanism (1), the interaction mechanism (1) is used to output the screen to the user and input the user's operation back into the interaction device, the interaction mechanism (1) includes an interaction module (1122) and two small arc blocks (122). A lead screw (1131) is provided at the center of the back of the interactive module (1122). Slide rails (1132) are provided on the left and right sides of the lead screw (1131). A rectangular slider (1141) is sleeved on the outside of the lead screw (1131) and the slide rails (1132). A square and round protrusion (1142) is provided on the bottom front side of the rectangular slider (1141). The two small arc blocks (122) are respectively disposed on the left and right sides of the interactive module (1122), and a large arc block (123) is disposed on the back of each of the two small arc blocks (122). A pull rod (1272) is disposed at the bottom center of the large arc block (123). The interactive module (1122) is tilted, with its top tilted to the rear, and the two slide rails (1132) are horizontally mirrored with the lead screw (1131) as the center.

2. An interactive imaging device according to claim 1, wherein, The interactive mechanism (1) includes an adjustment component (11), which is used to adjust the angle of the display module of the imaging device so that the display module is at an angle that is convenient for the user to operate. A locking component (12) is used to lock the display module together with the adjustment component (11) to prevent the adjustment component (11) from accidentally separating from it; The locking component (12) is disposed on the outside of the adjusting component (11), and the outer wall of the locking component (12) abuts against the outer wall of the adjusting component (11).

3. An interactive imaging device according to claim 2, wherein, The adjustment component (11) includes an irregularly shaped outer box (111), the front outer wall of which is inclined, and a rectangular groove is formed at the center of the inclined front surface of the irregularly shaped outer box (111). The rectangular groove of the irregularly shaped outer box (111) extends rearward to the interior center of the irregularly shaped outer box (111). The interactive module (1122) is disposed on the front of the irregularly shaped outer box (111), and an O-shaped rotating plate (1121) is fitted around the outer wall of the interactive module (1122). The inclined surfaces of the back of the O-shaped rotating plate (1121) and the interactive module (1122) are both in contact with the inclined surfaces of the front of the irregular outer box (111). The tilt angles of the O-shaped rotating plate (1121) and the interactive module (1122) are the same as the tilt angles of the front of the irregular outer box (111). The bottom of the O-shaped rotating plate (1121) is rotatably connected to the bottom of the front of the irregular outer box (111). The lead screw (1131) is located at the center of the rear side inside the irregular outer box (111). The bottom of the lead screw (1131) is rotatably connected to the irregular outer box (111), the top of the lead screw (1131) extends upward through the irregular outer box (111) and is rotatably connected, and the top and bottom outer walls of the two slide rails (1132) are installed on the inner wall of the irregular outer box (111).

4. An interactive imaging apparatus as claimed in claim 3, characterized in that The slide rail (1132) is slidably connected to the rectangular slider (1141). The rectangular slider (1141) has an internal thread at its center. The rectangular slider (1141) is threaded to the outer wall of the lead screw (1131) through the internal thread at its center. The square-round protrusion (1142) is installed on the bottom outer wall of the inclined surface on the back of the interactive module (1122). The rectangular slider (1141) and the square-round protrusion (1142) are provided with square-round protrusions on their left and right sides. The two square-round connecting rods (115) are horizontally mirrored with respect to the rectangular slider (1141) as the center. The front sides of the two square-round connecting rods (115) that are close to each other are rotatably connected to the side of the square-round protrusion (1142). The rear sides of the two square-round connecting rods (115) that are close to each other are rotatably connected to the side of the rectangular slider (1141). A motor (1161) is installed at the center of the top outer wall of the irregular outer box (111). The bottom output end of the motor (1161) is on the same horizontal line as the lead screw (1131), the tilt angle of the motor (1161) is the same as that of the lead screw (1131), the bottom output end of the motor (1161) is installed at the center of the top outer wall of the lead screw (1131) through a coupling, and a motor housing (1162) is fitted around the motor (1161).

5. An interactive imaging apparatus as claimed in claim 4, characterized in that The bottom outer wall of the motor housing (1162) is installed on the top outer wall of the irregular outer box (111). The top of the motor housing (1162) is provided with a lead screw in a straight-line guide slot. The four straight-line guide slots of the motor housing (1162) are arranged in a circular array with the motor (1161) as the center. A rectangular baffle (1171) is installed on the front side of the notch on the front of the irregular outer box (111). The outer wall of the rectangular baffle (1171) fits into the inner wall of the opening of the irregular outer box (111). The side outer wall of the rectangular baffle (1171) is installed on the inner wall of the irregular outer box (111). Among them, irregularly shaped support blocks (1172) are installed at the four edges of the back of the rectangular baffle (1171), and the four irregularly shaped support blocks (1172) are installed on the inner wall of the irregularly shaped outer box (111) on the side that is far away from each other.

6. An interactive imaging device according to claim 5, wherein, The outer wall of the front of the rectangular baffle (1171) can fit against the outer wall of the back of the O-shaped rotating plate (1121) and the interactive module (1122). A curved surface (1181) is provided at the center of the front of the rectangular baffle (1171). The width of the curved surface (1181) is adapted to the lateral length of the square and round protrusion (1142). Straight grooves (1182) are provided on the left and right sides of the curved surface (1181). The two straight slots (1182) are both opened at the edge of the outer wall of the rectangular baffle (1171). The two straight slots (1182) extend backward and penetrate the rectangular baffle (1171). The square-round connecting rod (115) moves inside the straight slots (1182).

7. The interactive imaging apparatus of claim 2, wherein The locking component (12) includes two trapezoidal baffles (121). The two trapezoidal baffles (121) are respectively located on the left and right sides of the top of the front outer wall of the interactive module (1122). The two trapezoidal baffles (121) are horizontally mirrored with respect to the interactive module (1122). The two small arc blocks (122) are respectively installed at the center of the back outer wall of the trapezoidal baffles (121). The large arc block (123) is located directly behind the back of the trapezoidal baffles (121) and the small arc blocks (122). The side of the two small arc blocks (122) that are close to each other are installed on the side outer wall of the irregular outer box (111). The two large arc blocks (123) each have a cavity (124) at the center of their interior. The cavity 1 (124) extends forward and penetrates the outer wall of the front of the large arc block (123). The size of the cavity 1 (124) is adapted to the size of the small arc block (122) and is inserted into it. A rectangular protrusion (125) is provided at the bottom of the large arc block (123), and the top outer wall of the rectangular protrusion (125) is set as an arc surface.

8. An interactive imaging device according to claim 7, wherein, The arc surface at the top of the rectangular protrusion (125) is mounted on the bottom outer wall of the large arc block (123). A rectangular cavity two (126) is opened inside the rectangular protrusion (125). The pull rod (1272) is located at the center inside the cavity two (126). The top and bottom of the pull rod (1272) both pass through the rectangular protrusion (125) and extend outward. The top of the pull rod (1272) extends upward and passes through the small arc block (122) and the large arc block (123). The outer diameter of the outer wall of the pull rod (1272) is adapted to and slidably connected to the inner diameter of the inner wall of the small arc block (122) and the large arc block (123) through which they are penetrated. A sliding plate (1271) is provided below the top of the cavity two (126).

9. An interactive imaging apparatus as claimed in claim 8, characterized in that The top outer wall of the slide plate (1271) is fitted with the top inner wall of the cavity two (126). The slide plate (1271) is installed on the outer periphery of the outer wall of the pull rod (1272). A spring (128) is provided below the slide plate (1271). The spring (128) is sleeved on the outer periphery of the bottom outer wall of the pull rod (1272). The top outer wall of the spring (128) is installed on the bottom outer wall of the slide plate (1271). The bottom outer wall of the spring (128) is installed on the bottom inner wall of the cavity two (126). The bottom outer wall of the skateboard (1271) and the bottom inner wall of the cavity (126) are flexibly connected to each other by a spring (128). An O-shaped handle (129) is installed at the center of the bottom outer wall of the pull rod (1272), and the O-shaped handle (129) is set in an O-shape.