Patent ID: 12259644

DETAILED DESCRIPTION

In order to clarify the purpose, technical solution, and advantages of the embodiments of the present disclosure, the following will provide a clear and complete description of the technical solution in the embodiments of the present disclosure in conjunction with the accompanying drawings. Obviously, the described embodiments are one part of the embodiments of the present disclosure, not all of them. The components of the embodiments of the present disclosure described and illustrated in the accompanying drawings can be arranged and designed in various different configurations.

Therefore, the detailed description of the embodiments of the present disclosure provided in the accompanying drawings is not intended to limit the scope of the present disclosure, but only to represent selected embodiments of the present disclosure. Based on the embodiments in the present disclosure, all other embodiments obtained by ordinary skilled persons in this field without creative labor are within the scope of protection of the present disclosure.

It should be noted that similar labels and letters represent similar items in the following figures. Therefore, once an item is defined in one figure, it does not need to be further defined and explained in subsequent figures.

It should be understood that the terms “up”, “down”, “front”, “back”, “left”, “right”, “horizontal”, etc. indicate the orientation or position relationship based on the orientation or position relationship shown in the drawings, only for the convenience of describing and simplifying the description of the present application, rather than indicating or implying that the device or component referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore cannot be understood as a limitation of the present application. In addition, the terms “first”, “second”, “third”, etc. are only used to distinguish descriptions and cannot be understood as indicating or implying relative importance. In the description of the present disclosure, unless otherwise specified, the meaning of “multiple” refers to two or more.

As used in this application, the terms “installation”, “connection”, “connecting”, “fixed” and other terms should be broadly understood, for example, they can be fixed connections, detachable connections, or integrated connections; It can be a mechanical connection or an electrical connection; It can be directly connected, or indirectly connected through an intermediate medium, or it can be an internal connection between two components. For ordinary technical personnel in this field, the specific meanings of the above terms in this application can be understood based on specific circumstances.

In the present disclosure, unless otherwise specified and limited, the first feature above or below the second feature may include direct contact between the first and second features, or may include contact between the first and second features through another feature between them instead of direct contact. Moreover, the first feature being “above”, and “on” the second feature includes the first feature being directly above and diagonally above the second feature, or simply indicating that the first feature is horizontally higher than the second feature. The first feature being “below” include the first feature being directly below and diagonally below the second feature, or simply indicating that the first feature has a lower horizontal height than the second feature.

The embodiments of the present disclosure are described in detail below, and examples of the embodiments are shown in the accompanying drawings, where the same or similar reference numerals from beginning to end represent the same or similar elements or elements with the same or similar functions. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain the present disclosure, and should not be understood as limiting the present disclosure.

As shown inFIGS.1-5, the rotatable camera mounting device comprises: an upper base1, wherein the upper base1comprises a loading surface10, an upper base body11connected to the loading surface10, the upper base body11comprising an upper base frame110, a first reinforcing skeleton111connected to the upper base frame110, and a first connecting member112, wherein the first connecting member112is provided with an accommodating cavity1120, and a first connecting surface1121is provided at one end of the first connecting member112away from the loading surface10. As shown inFIG.6, the loading surface10is provided with a first opening101. The upper base1also includes a transparent plate12that matches the first opening101, such as a transparent tempered glass, whose surface is flush with the surface of the loading surface10. The transparent tempered glass, due to its high hardness and wear resistance, can ensure that people or objects are placed on it without damage. The loading surface10can be used for standing people or placing items. The loading surface10is detachably connected to the upper base frame110and/or the loading surface10is integrally formed with the upper base frame110.

As shown inFIGS.4-5, the first connecting member112is provided with a second opening1122opposite to the first opening101and a third opening1123opposite to the second opening1122. As shown inFIGS.2,4, and5, the accommodating cavity1120is configured to accommodate the 3D holographic device2. The 3D holographic device2includes a 3D holographic device body20that extends into the accommodating cavity1120through a third opening1123, and a 3D holographic device fixing surface21that is connected to the first connecting surface1121. In one embodiment, holes are provided on the fixing surface21of the 3D holographic device, and the first connecting surface1121is also provided with holes. The fixing surface21of the 3D holographic device is connected to the first connecting surface1121by installing screws on the holes. The transparent tempered glass is used to display the program images of 3D holographic device2. After the 3D holographic device2is activated, it can display animations, images, time, etc. through the transparent properties of the tempered glass.

It should be noted that, in another example, the first connecting member and the first reinforcing skeleton can enclose to form the accommodating cavity.

As shown inFIG.2, the first reinforcing skeleton111includes two or more first reinforcing beams1110, and two ends of each of the first reinforcing beams1110are connected to the upper base frame110. In one embodiment, the first reinforcing skeleton111comprises two first reinforcing beams1110. The two ends of each of the first reinforcing beams1110are connected to the upper base frame110, and the two first reinforcing beams1110extend parallel to each other or in approximately the same direction. By setting the first reinforcing beam1110to enhance the strength of the upper base frame110, the loading surface10can be used for standing people or placing objects.

As shown inFIG.2, the upper base body11also includes a second reinforcing skeleton113, which includes two or more second reinforcing beams1130. The two ends of each of the second reinforcing beams1130are respectively connected to the upper base frame110and the first reinforcing beam1110. In one embodiment, the second reinforcing skeleton113includes four second reinforcing beams1130, and two ends of each of the second reinforcing beams1130are respectively connected to the upper base frame110and the first reinforcing beam1110. The length of the second reinforcing beam1130is shorter than that of the first reinforcing beam1110. Each of the first reinforcing beams1110is connected to two of the second reinforcing beams1130. By setting the second reinforcing beam1130, the strength of the upper base frame110can be further enhanced, so that the loading surface10can be used for standing people or placing objects. Due to the need to carry people or objects for photography, the load-bearing and stability of the upper base1have been further strengthened structurally with multiple reinforcing beams, greatly enhancing the load-bearing strength of the upper base1.

As shown inFIG.2, the two ends of each of the first reinforcing beam1110are connected to the upper base frame110, while two ends of each of the second reinforcing beams1130are respectively connected to the upper base frame110and the first reinforcing beam1110. In one embodiment, holes can be provided on the first connecting member112, and holes can also be provided at corresponding positions of the first reinforcing beam1110. The first connecting member112is fixedly connected to the first reinforcing beam1110by screws and the likes. Alternatively, the first connecting member112can be fixedly connected to the first reinforcing beam1110through welding.

As shown inFIGS.4-5, the first connecting member112also includes grooves1124that match the first reinforcing skeleton111. When the first reinforcing skeleton111includes two first reinforcing beams1110, the first connecting member112includes two grooves1124, each groove1124is equipped with one first reinforcing beam1110. In one embodiment, two first reinforcing beams1110extend parallel to each other or in approximately the same direction, and each groove1124is equipped with a first reinforcing beam1110, restricting the left and right shaking or moving of the first connecting member112through the first reinforcing beam1110. The first connecting member112and the first reinforcing beam1110can be connected by screws. Alternatively, the first connecting member112and the first reinforcing beam1110can be connected by welding.

As shown inFIGS.4-5, the first connecting member112is provided with a first limiting surface1125opposite to the first connecting surface1121, and the second opening1122is provided on the first limiting surface1125. In one embodiment, when the upper base1includes a transparent plate12that matches the first opening101, the transparent plate12contacts the first limiting surface1125. The transparent plate12is set inside the first opening101, which means that the outer side of the transparent plate12is in contact with the inner side of the first opening101, so the left and right movement of the transparent plate12is restricted by the first opening101. By setting the first limiting surface1125, the movement of the transparent plate12in the height direction can be restricted.

As shown inFIGS.1-3and6, the rotatable camera mounting device also includes a lower base3opposite to the upper base1and a connecting unit4connecting the upper base1and the lower base3. The connecting unit4includes a second connecting member41connected to the first connecting member112, a bearing member42connected to the second connecting member41, and a third connecting member43connected to the bearing member42and the lower base3. The second connecting member41is provided with a second connecting surface410near the first connecting surface1121, and the first connecting surface1121is detachably connected to the second connecting surface410. The second connecting member41is provided with a second connecting end411away from the first connecting surface1121, and the second connecting end411is connected to an upper end surface of a bearing inner ring420of the bearing member42. A third connecting surface430is provided at one end of the third connecting member43near the bearing member42, and the third connecting surface430is connected to the lower end surface of the bearing inner ring420of the bearing member42. The end of the third connecting member43away from the bearing member42is provided with a third connecting end (not shown), which is connected to the lower base3. The lower end of the lower base3is equipped with foot cups30, which can be adjusted to a certain height, allowing the rotatable camera mounting device to remain stable in different usage environments.

As shown inFIGS.1,3, and6, the lower base3is equipped with a lower base frame31and a third reinforcing skeleton32. The third reinforcing skeleton32intersects with each other to form a fourth connecting end320for connecting the third connecting end.

As shown inFIGS.1,3, and6, the rotatable camera mounting device also includes a driving device5, which includes a motor50, a driving wheel51connected to the motor50, a bearing member42, and a rotating device52connected to the bearing member42. The bearing member42engages with the driving wheel51. The rotating device52can rotate in the circumferential direction around the upper base1and the lower base3and can be equipped with a camera equipment. The camera equipment can include mobile phones, tablets, computers, cameras, etc. Motor50can be used to drive the rotating device52to rotate in the circumferential direction around the upper base1and the lower base3. In one embodiment, the bearing member42can rotate with the driving wheel51under the action of a belt.

As shown inFIG.3, the bearing member42also includes a bearing outer ring421, which is provided with teeth that match the driving wheel51, and one end of the rotating device52is connected to the bearing outer ring421. The bearing member42of the driving device5is installed at the upper end surface of the lower base3. The bearing member42is a specially designed bearing, which is divided into a bearing inner ring420and a bearing outer ring421. Both the bearing inner ring420and the bearing outer ring421can easily rotate. The bearing member42is fixedly installed on the lower base3through the holes on the bearing inner ring420, ensuring that the bearing inner ring420of the bearing member42remains fixed. The bearing outer ring421of the bearing member42is provided with teeth and mounting holes for the rotating device52, making it easy for the rotating device52to be fixedly installed on the outside of the bearing member42. In addition, the motor50is fixedly installed at the bottom of the lower base3. After installation, the driving wheel51connected to the motor50engages perfectly with the teeth of the bearing outer ring421. When the motor50is working, the rotation of the small gear or wheel on the motor50drives the large gear or wheel on the outside of the bearing member42to rotate together, further driving the rotating device52fixedly installed on the bearing outer ring421to rotate in the circumferential direction around the upper base1and the lower base3. In one embodiment, the bearing outer ring421can rotate with the driving wheel51under the action of the belt, as shown inFIG.7. In one embodiment, the bearing outer ring421can also be connected to another gear to act as a driven wheel.

As shown inFIGS.1and3, the rotating device52includes a first rotating unit520connected to the bearing outer ring421, a second rotating unit521connected to the first rotating unit520, and a third rotating unit522rotatably connected to the second rotating unit521. The second rotating unit521are nested inside the first rotating unit520. The third rotating unit522can be set as a telescopic rod, used to fix various auxiliary equipment such as fill lights, mobile phones, cameras, tablets, etc. The rod body and its connecting members are made of metal material, which enhances the stability and durability of the product.

As shown inFIGS.1and3, the first rotating unit520is equipped with fasteners5200, which are used to adjust length of the second rotating unit521nested inside the first rotating unit520and to fix the second rotating unit521. The fasteners5200can be screws, for example. The second rotating unit521can be adjusted by pulling and pushing on the first rotating unit520, and then fixed by screws, making it easy to adjust the distance between the telescopic rod and the upper base1and lower base3as needed, allowing users to expand more photography application scenarios.

As shown inFIGS.1and3, one end of the first rotating unit520connected to the bearing outer ring421is provided with multiple connecting fins5201, which extend outward to form a clearance space for avoiding the second connecting end411. The first rotating unit520includes multiple first cantilevers5202, and the second rotating unit521includes second cantilevers5210corresponding to the first cantilevers5202, each of which is nested inside the first cantilever5202. The first cantilever5202is slidably connected to the second cantilever5210, and the second cantilever5210is installed on the first cantilever5202through the fasteners5200.

As shown inFIG.6, the side of the upper base frame110has a channel G, which is equipped with ambient lights L, such as LED lights. The outer side of the channel G is equipped with a transparent cover C that adheres to the upper base frame110. Similarly, the side of the lower base frame31has a channel G, which is equipped with ambient lights L, such as LED lights. The outer side of the channel G is equipped with a transparent cover C that adheres to the lower base frame31. For example, the channel G and the ambient light L set inside the channel G can be covered with transparent acrylic to ensure that the LED light is not damaged due to collision during use or transportation, and to make the light softer, more uniform, and not glaring, enhancing the texture of the equipment.

As shown inFIGS.1and3, the rotatable camera mounting device also includes an AI voice device6and a main control device7. The main control device7is configured to create instructions and control the rotatable camera mounting device to perform actions after obtaining user voice collected by the AI voice device6. The main control device7can be used to control the rotation of the motor. The main control device7can control the turn on, turn off, light mode switching, or brightness adjustment of the ambient lighting. The AI voice device6includes a microphone device configured to capture the user's voice when they speak. User voice can include words, sentences, songs, etc. The AI voice device6also includes a speaker device, which is configured to provide voice feedback under the control of the main control device7when the microphone device acquires user voice. The actions include controlling the activation, deactivation, lighting mode switching, or brightness adjustment of ambient lighting. It should be further explained that both the AI voice device6and the driving device are installed on the side of the lower base near the foot cup, which is more convenient for installation, disassembly, maintenance, etc.

The rotatable camera mounting device can be equipped with a 3D holographic device, which can display contents such as time, pictures, animations, etc., further enhancing the entertainment; a stable skeletal structure, including multiple reinforcing beams, greatly enhancing the strength of the upper base; LED ambient light, which enhances the fun and playability of the device; an AI voice control unit, greatly improving the efficiency and scene application of the device by adjusting the rotation of the device, switching or changing lights, and turning on and off the device by voice, enhancing the interaction between people and the device; the main electrical components such as the control device and motor are all located on the lower base, which can be installed and removed without disassembling the upper base, making it easy to install and maintain the entire machine.

The above description is only the preferred embodiment of the present disclosure and is not intended to limit the present disclosure. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of the present disclosure should be included in the scope of protection of the present disclosure.