A shooting studio
By designing a detachable and connectable shooting studio frame, the problems of high cost and low efficiency of traditional shooting studios are solved, enabling flexible assembly and reuse of the shooting studio and reducing usage costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUNAN HAPPLY SUNSHINE INTERACTIVE ENTERTAINMENT MEDIA CO LTD
- Filing Date
- 2025-06-30
- Publication Date
- 2026-07-14
AI Technical Summary
Traditional filming studios are expensive to build, and the studio frame needs to be purchased again after each filming mission, resulting in low efficiency.
Design a shooting studio, including a detachable and connectable studio frame. The frame is composed of multiple strip components and connecting components. The strip components have grooves on their circumferential surfaces, and the connecting components are detachable and connectable, which facilitates flexible assembly and disassembly.
The detachable frame design reduces the operating cost of the shooting studio and improves its reusability and setup efficiency.
Smart Images

Figure CN224495949U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of filming studio construction technology, and more specifically, to a filming studio. Background Technology
[0002] Currently, with the increasing demand for efficient filming and the development of virtual reality technology, the requirements for the efficiency of filming location construction are becoming increasingly stringent. Long-duration, high-cost, and customized filming studios have lost their advantage due to the industry-wide trend towards cost reduction and efficiency improvement. Traditional filming locations require the construction of lighting rigs, light boxes, green screens, tracks, and a series of other equipment. Furthermore, the studio frame, excluding the equipment, is a disposable item, requiring repurchase for each project. This results in high costs, a lengthy procurement process, and significantly reduced filming efficiency.
[0003] In conclusion, how to reduce the operating costs of filming studios has become a technical problem that urgently needs to be solved by those skilled in the art. Utility Model Content
[0004] In view of this, this application provides a shooting studio to reduce the cost of using the shooting studio.
[0005] To achieve the above objectives, this application provides the following technical solution:
[0006] A shooting studio includes a studio frame, the studio frame having multiple frame modules assembled from pieces, each frame module including multiple strip members assembled from pieces, and adjacent strip members being detachably connected by connecting members.
[0007] The strip member has a groove extending along its length on its circumferential surface. The two ends of the connecting member are respectively connected to two adjacent strip members, and at least one end of the connecting member is connected to the groove of the strip member.
[0008] In some embodiments of this application, the frame module includes a planar frame, which is assembled by piecing together multiple strip components in a planar manner. The strip components used to form the planar frame include straight components and / or curved components.
[0009] In some embodiments of this application, the frame module includes a curved frame, which is assembled by piecing together multiple strip components within a preset curved surface;
[0010] Wherein, the strip member used to form the curved surface frame includes an arc-shaped member; or, the strip member used to form the curved surface frame includes a straight member and an arc-shaped member.
[0011] In some embodiments of this application, the shed frame includes two vertically assembled strip members;
[0012] The vertical assembly connection of the two strip components is configured as an overlapping assembly connection; or, the vertical assembly connection of the two strip components is configured as a coplanar assembly connection.
[0013] In some embodiments of this application, the connecting member includes a first connecting corner piece, the first connecting corner piece having a first connecting end face and a second connecting end face that are perpendicular to each other, the first connecting end face and the second connecting end face being respectively connected to the grooves of the two vertically assembled strip members by a first fastener.
[0014] In some embodiments of this application, the connecting member includes a second connecting corner piece, the second connecting corner piece having a first connecting angle and a second connecting angle, the first connecting angle and the second connecting angle being hinged together, and the first connecting angle and the second connecting angle being respectively connected to the two vertically assembled strip members by a second fastener;
[0015] Wherein, one of the first connecting angle and the second connecting angle is connected to the end of one of the strip members, and the other is connected to a groove in one of the strip members.
[0016] In some embodiments of this application, the shed frame includes two strip members that are assembled and connected at opposite ends.
[0017] In some embodiments of this application, the connecting member includes an insert connector having a first insert portion and a second insert portion. The first insert portion and the second insert portion are respectively inserted into the slide grooves of the strip member whose ends are directly opposite each other and are respectively fixed to their respective slide grooves by a third fastener.
[0018] In some embodiments of this application, the shed frame includes two strip members that are stacked and aligned at the ends.
[0019] In some embodiments of this application, the connecting member includes an embedded connector and a tension bolt;
[0020] The embedded connector has an I-shaped cross-sectional profile and has a first embedded side and a second embedded side distributed sequentially along a first direction. The first embedded side and the second embedded side are respectively embedded in the grooves of two stacked and aligned strip members. The embedded connector has a first embedded segment and a second embedded segment distributed sequentially along a second direction. The mating end faces of the first embedded segment and the second embedded segment are inclined surfaces.
[0021] The tensioning bolt is used to tighten the first and second insert sections along the second direction, so that the first and second insert sections clamp the two stacked and flush strip members along the first direction.
[0022] In some embodiments of this application, the outer contour of the cross-section of the strip member is rectangular, and the groove is provided on all four circumferential surfaces of the strip member.
[0023] In some embodiments of this application, the shooting studio further includes a mounting component, the mounting component including a first connecting portion and a second connecting portion hinged to the first connecting portion, the first connecting portion being slidably disposed in the groove of the strip component, and the second connecting portion being used to connect the mounting device.
[0024] Compared to the background art description, the shooting studio provided in this application embodiment, in practical application, is more flexible and convenient to assemble and connect adjacent strip components because they are detachably connected by connecting components. Each strip component has a groove extending along its length on its circumferential surface. Both ends of the connecting component are connected to the two adjacent strip components, and at least one end of the connecting component is connected to the groove of the strip component. This allows for the selection of appropriate connection positions according to requirements, thus forming diverse frame modules. These modules can then be assembled into a studio frame of the desired shape. Furthermore, the assembly and disassembly are convenient; after a shooting task is completed, the components can be directly disassembled into individual strip components for easy transport to the next shooting location and reassembled into the required studio frame. This allows the shooting studio's assembly parts to be reused, saving at least some of the cost of repurchasing assembly parts and significantly reducing the operating cost of the shooting studio.
[0025] The technical features mentioned above, those to be mentioned below, and those shown individually in the accompanying drawings can be combined arbitrarily, provided that the combined technical features are not contradictory. All feasible combinations of features are the technical content explicitly described herein. Any one of the multiple sub-features contained in the same statement can be applied independently, without necessarily being applied together with other sub-features. Attached Figure Description
[0026] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0027] Figure 1 A schematic diagram of an overall structure of the shed frame provided in an embodiment of this application;
[0028] Figure 2 This is a schematic diagram of the planar frame provided in an embodiment of this application;
[0029] Figure 3 A schematic diagram of a curved frame provided in an embodiment of this application;
[0030] Figure 4 Another structural schematic diagram of the curved frame provided in the embodiments of this application;
[0031] Figure 5 A schematic diagram of another structure of the curved frame provided in the embodiments of this application;
[0032] Figure 6 A schematic diagram of the structure provided in this application for connecting two vertically overlapping strip components through a first connecting corner piece;
[0033] Figure 7 A schematic diagram of the structure provided in this application for connecting two vertically coplanarly assembled strip members through a first connecting corner piece;
[0034] Figure 8 A schematic diagram of the structure in which two strip members are connected by a second connecting corner piece, as provided in an embodiment of this application;
[0035] Figure 9 A schematic diagram of another overall structure of the shed frame provided in an embodiment of this application;
[0036] Figure 10 A schematic diagram of the structure provided in this application embodiment, showing two strip members with opposite ends connected by a plug-in connector;
[0037] Figure 11 A schematic diagram of the structure provided in this application for connecting two stacked strip components to each other via an embedded connector and a tension bolt (the embedded connector is not yet embedded into the strip component in the diagram).
[0038] Figure 12 A schematic diagram of a structure for mounting a device on a strip member provided in an embodiment of this application;
[0039] Figure 13 A schematic diagram of a structure provided in this application for mounting another mounting device by providing a mounting member on a strip member;
[0040] Figure 14 This is a schematic diagram of a structure in which a mounting member is provided on a strip member to mount another mounting device, as provided in an embodiment of this application.
[0041] in, Figures 1-14 middle:
[0042] 1-Shelf frame;
[0043] 10-Framework Modules;
[0044] 10a - Planar frame;
[0045] 10b-Curved Surface Framework;
[0046] 100 - Strip component;
[0047] 100a - Straight-line component;
[0048] 100b - Curved component;
[0049] 101-Slide groove;
[0050] 2-Connecting components;
[0051] 21-First connecting corner piece;
[0052] 211 - First connecting end face;
[0053] 212 - Second connecting end face;
[0054] 213 - First fastener;
[0055] 214 - First fastening nut;
[0056] 22-Second connecting corner piece;
[0057] 221 - First connecting angle;
[0058] 222 - Second connecting angle;
[0059] 223 - Second fastener;
[0060] 224 - First hinge bolt;
[0061] 225 - First hinge nut;
[0062] 23- Insert connector;
[0063] 231-First insertion section;
[0064] 232-Second insertion section;
[0065] 233 - Third fastener;
[0066] 24 - Embedded connector;
[0067] 24a - First mounting section;
[0068] 24b - Second mounting section;
[0069] 24c - mating end face;
[0070] 241 - First mounting side;
[0071] 242 - Second mounting side;
[0072] 25 - Tighten the bolt;
[0073] 26 - Tighten the nut;
[0074] 3- Mounting components;
[0075] 31-First connecting part;
[0076] 32-Second connecting part;
[0077] 33 - Second hinge bolt;
[0078] 34 - Second hinge nut;
[0079] 4-Equipped with equipment;
[0080] 5- Adhesive layer;
[0081] A - Assembly position;
[0082] A1 - The end faces the assembly and connection position;
[0083] A2 - Stacking and assembly connection position. Detailed Implementation
[0084] The core of this application is to provide a shooting studio to reduce the cost of using the shooting studio.
[0085] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.
[0086] With the increasing demand for efficient filming and the development of virtual reality technology, the requirements for the efficiency of filming location construction are becoming higher and higher. Long-term, high-cost, and customized filming studios no longer have any advantages in the face of the industry-wide trend of cost reduction and efficiency improvement.
[0087] In related technologies, filming locations often require the construction of a series of equipment such as lighting rigs, light boxes, green screens, and tracks. Furthermore, the frame of the filming studio, excluding the equipment, is a disposable item, requiring repurchase for each subsequent project. This results in high costs, a lengthy procurement process, and significantly reduced filming efficiency. This is especially problematic for projects with less demanding location requirements, where traditional studio construction represents a substantial expense.
[0088] Based on this, this application provides a shooting studio to reduce the cost of using the shooting studio.
[0089] Specifically, refer to Figure 1 As shown, the shooting studio provided in this application embodiment specifically includes a studio frame 1. The studio frame 1 has multiple frame modules 10 that are assembled by piecing together. Each frame module 10 includes multiple strip members 100 that are assembled by piecing together. Adjacent strip members 100 are detachably connected by connecting members 2. The frame modules 10 are formed by assembling the strip members 100, and then the frame modules 10 are assembled by piecing together to form the studio frame 1 of the final required shape. The circumferential surface (i.e., the surface excluding the two end surfaces) of each strip member 100 is provided with a groove 101 extending along the length direction of the strip member 100. The two ends of the connecting members 2 are respectively connected to two adjacent strip members 100, and at least one end of the connecting members 2 is connected to the groove 101 of the strip member 100.
[0090] In practical application, this shooting studio features a detachable connection between adjacent strip components 100 via connecting components 2. Each strip component has a groove 101 extending along its length on its circumferential surface. The connecting components 2 are connected to adjacent strip components 100 at both ends, with at least one end connected to the groove 101 of the strip component 100. This allows for flexible and convenient assembly of adjacent strip components 100, enabling the selection of appropriate connection positions to form diverse frame modules 10. These modules can then be assembled into a studio frame 1 of the desired shape. Furthermore, the studio is easy to disassemble and reassemble. After completing a shooting task, individual strip components 100 can be disassembled for easy transport to the next shooting location and reassembled into the required studio frame 1. This allows for the reuse of the shooting studio's components, saving the cost of repurchasing some components and significantly reducing the studio's operating costs.
[0091] It should be noted that the strip member 100 described above can be designed as an aluminum alloy profile member. Of course, it is understood that the aluminum alloy profile member described above is only an example of the profile of the strip member 100 in this application embodiment. In actual application, it can also be designed as other profiles, such as rigid plastic or other metal materials, without further specific limitations.
[0092] It should also be noted that the aforementioned slide 101 can be specifically designed as an inverted T-shaped slide, or a dovetail slide, or other slide structures with a certain limiting function. Such a design makes it easier to limit the connection when the connecting member 2 is connected to the slide 101. Of course, it is understood that the aforementioned T-shaped slide is merely an example of the form of the slide 101 in this application embodiment. In actual applications, slides 101 of other shapes can also be designed, and no further specific limitations are made here.
[0093] It should also be noted that the outer contour of the cross section of the strip member 100 can be designed as a rectangle, but is not limited to it. When the outer contour of its cross section is designed as a rectangle, the strip member 100 is provided with grooves 101 on all four circumferential surfaces (i.e., the four surfaces excluding the two end surfaces). At that time, the grooves 101 on the four circumferential surfaces of a strip member 100 can be connected to other strip members 100, which greatly improves the diversity and flexibility of the assembly shape of the strip member 100.
[0094] In some specific implementation plans, refer to Figure 2 and Figure 3 As shown, the above-mentioned frame module 10 can be designed as a planar frame 10a or a curved frame 10b. In specific applications, the configuration can be selected according to the specific construction requirements.
[0095] Reference Figure 2 As shown, the planar frame 10a can be assembled from multiple strip members 100 laid flat in a plane. The strip members 100 constituting the planar frame 10a can be straight members 100a or curved members 100b. The curved member 100b can be specifically combined with... Figure 3 The illustrated structural form aids in understanding. The lengths of the straight component 100a and the curved component 100b can be selected according to actual needs, or they can be designed as standard dimensions to facilitate selection and use in subsequent assembly tasks.
[0096] Reference Figures 3-5 As shown, the curved frame 10b is specifically assembled from multiple strip components 100 within a preset curved surface; wherein, the strip components 100 used to constitute the curved frame 10b can all be arc-shaped components 100b, as detailed in the following document. Figure 4It can be used as an illustration or a reference. Figure 3 and Figure 5 As shown, the strip members 100 used to form the curved frame 10b include straight members 100a and curved members 100b, which are combined and assembled to form the curved frame 10b. In practical applications, the configuration can be adjusted according to actual needs, and no further specific limitations are made here.
[0097] In some specific implementation plans, refer to Figure 6 and Figure 7 As shown, the aforementioned shed frame 1 may specifically include two vertically assembled strip members 100; wherein, referring to Figure 6 As shown, the vertical assembly connection of the two strip components 100 can be specifically constructed as an overlapping assembly connection; or it can be designed as... Figure 7 The vertical assembly connection of the two strip components 100 shown is constructed as a coplanar splicing connection. In practical applications, the specific configuration can be made according to actual needs.
[0098] Further implementation plans will continue to refer to Figure 6 and Figure 7 As shown, the connecting member 2 may specifically include a first connecting corner piece 21. The first connecting corner piece 21 has a first connecting end face 211 and a second connecting end face 212 that are perpendicular to each other. The first connecting end face 211 and the second connecting end face 212 can be connected to the grooves 101 of the two vertically assembled strip members 100 through first fasteners 213. That is, the first connecting end face 211 is connected to the groove 101 of one strip member 100 through one or more first fasteners 213, and the second connecting end face 212 is connected to the groove 101 of the other strip member 100 through one or more first fasteners 213. By designing the connecting member 2 in the structural form of the first connecting corner piece 21, the perpendicular first connecting end face 211 and the second connecting end face 212 can better ensure the vertical assembly characteristics of the two strip members 100. The specific way in which the first fastener 213 is connected to the groove 101 of the strip member 100 can be that a corresponding first fastening nut 214 is provided in the groove 101, or a corresponding threaded hole is directly opened on the bottom wall of the groove 101.
[0099] In some other specific implementation schemes, refer to Figure 8As shown, the connecting member 2 can also be designed as a second connecting corner piece 22, which has a first connecting corner 221 and a second connecting corner 222. The first connecting corner 221 and the second connecting corner 222 are hinged. Specifically, the first connecting corner 221 and the second connecting corner 222 are hinged by a first hinge bolt 224 and a first hinge nut 225 for limiting the hinged connection, so that the first connecting corner 221 can swing relative to the second connecting corner 222 around the first hinge bolt 224. The first connecting corner 221 and the second connecting corner 222 are respectively connected to two vertically assembled strip members 100 by a second fastener 223. One of the first connecting corner 221 and the second connecting corner 222 is connected to the end of a strip member 100, and the other is connected to a groove 101 of a strip member 100. This design allows the two strip components 100 connected by the second connecting corner piece 22 to not only slide along the groove 101 but also to rotate, making the assembly more flexible.
[0100] In some specific implementation plans, refer to Figure 1 As shown, when two adjacent frame modules 10 are assembled, the corresponding assembly positions A are different, and different connecting components 2 can be used for connection.
[0101] For example, refer to Figure 9 As shown, the aforementioned shed frame 1 may include two strip members 100 whose ends are directly opposite each other and assembled together. See details in [link to relevant documentation]. Figure 9 The end shown in the diagram is directly opposite the assembly connection position A1. (Refer to...) Figure 10 As shown, the corresponding connecting member 2 can be specifically designed as an insert connector 23. The insert connector 23 has a first insert part 231 and a second insert part 232. The first insert part 231 and the second insert part 232 are respectively inserted into the slide grooves 101 of the two strip members 100 whose ends are directly opposite each other and are connected. They are respectively fixed to their respective slide grooves 101 by the third fasteners 233.
[0102] Another example, see reference. Figure 9 As shown, the shed frame 1 may include two stacked and flush strip members 100, as detailed in the attached diagram. Figure 9 The diagram shows the stacking and assembly connection point A2. (Refer to...) Figure 11As shown, the corresponding connecting member 2 can be specifically designed to include an embedded connector 24 and a tension bolt 25; wherein, the cross-sectional profile of the embedded connector 24 is I-shaped, and the embedded connector 24 has a first embedded side 241 and a second embedded side 242 (that is, the upper and lower limiting sides formed by the corresponding I-shaped structure) distributed sequentially along the first direction. The first embedded side 241 and the second embedded side 242 are respectively embedded in the grooves 101 of two stacked and aligned strip members 100. The embedded connector 24 has a first embedded section 24a and a second embedded section 24b distributed sequentially along the second direction, and the mating end face 24c of the first embedded section 24a and the second embedded section 24b is... The inclined surface; the tension bolt 25 passes sequentially through the first insert section 24a and the second insert section 24b, and is used to tighten the first insert section 24a and the second insert section 24b along the second direction, so that the first insert section 24a and the second insert section 24b clamp the two stacked and flush strip members 100 along the first direction. The specific working principle is that since the mating end face 24c is an inclined surface, as the first insert section 24a and the second insert section 24b are tightened along the second direction, the first insert section 24a and the second insert section 24b will slide misaligned along the mating end face 24c in the first direction, thereby clamping the limiting arms corresponding to the sliding grooves 101 of the two strip members 100. Those skilled in the art should understand that the tension bolt 25 also needs to be equipped with a corresponding tension nut 26 to achieve the tightening.
[0103] In some other specific implementation schemes, refer to Figures 12-14 As shown, the aforementioned shooting studio may further include a mounting component 3. This mounting component 3 includes a first connecting portion 31 and a second connecting portion 32 hinged to the first connecting portion 31. Specifically, the first connecting portion 31 and the second connecting portion 32 are hinged by a second hinge bolt 33 and a second hinge nut, allowing the first connecting portion 31 to rotate relative to the second connecting portion 32 around the second hinge bolt 33. The first connecting portion 31 is slidably disposed within the groove 101 of the strip component 100, and the second connecting portion 32 is used to connect the mounting device 4. By designing this mounting component 3, the mounting device 4, after being installed on the studio frame 1, can not only slide and adjust along the groove 101 but also rotate and adjust around the second hinge bolt 33, making the adjustment more flexible.
[0104] It should be noted that the connection method between the second connecting part 32 and the mounting device 4 is not limited; it can be a fastener connection, adhesive bonding, etc., depending on the specific type of the mounting device 4. The mounting device 4 can be equipment such as a camera, lighting device, backdrop, or props, and is not specifically limited here.
[0105] For example, refer to Figure 12As shown, the mounting device 4 can be a camera, and in this case, the mounting device 4 can be fixed to the second connecting part 32 by fasteners.
[0106] Another example, see reference. Figure 13 As shown, the mounting device 4 can be a light box, and in this case, the mounting device 4 can be fixed to the second connecting part 32 by fasteners.
[0107] Another example is, see reference. Figure 14 As shown, the mounting device 4 can be a green screen, and in this case, the mounting device 4 can be fixed to the second connecting part 32 by the adhesive layer 5.
[0108] It should be noted that the various embodiments in this specification are described in a progressive manner, with each embodiment focusing on the differences from other embodiments. The same or similar parts between the various embodiments can be referred to each other.
[0109] As indicated in this application and claims, unless the context clearly indicates otherwise, the words "a," "an," "a," and / or "the" are not specifically singular and may include the plural. Generally, the terms "comprising" and "including" only indicate the inclusion of expressly identified steps and elements, which do not constitute an exclusive list, and the method or apparatus may also include other steps or elements. An element defined by the phrase "comprising an..." does not exclude the presence of other identical elements in the process, method, product, or apparatus that includes the element.
[0110] In the description of the embodiments of this application, unless otherwise stated, " / " means "or", for example, A / B can mean A or B; "and / or" in this document is merely a description of the relationship between related objects, indicating that three relationships can exist. For example, A and / or B can represent: A existing alone, A and B existing simultaneously, and B existing alone. Furthermore, in the description of the embodiments of this application, "multiple" refers to two or more.
[0111] It should also be noted that in the description of the embodiments of this application, the terms "first" and "second" are used only for the purpose of distinguishing descriptions and should not be construed as indicating or implying relative importance, nor should they be construed as indicating or implying order.
[0112] This document uses specific examples to illustrate the principles and implementation methods of this application. The descriptions of the embodiments above are only for the purpose of helping to understand the core ideas of this application. It should be noted that those skilled in the art can make several improvements and modifications to this application without departing from the principles of this application, and these improvements and modifications also fall within the protection scope of the claims of this application.
Claims
1. A filming studio, comprising a studio frame (1), characterized in that, The shed frame (1) has multiple frame modules (10) assembled by piecing together. Each frame module (10) includes multiple strip members (100) assembled by piecing together. Two adjacent strip members (100) are detachably connected by a connecting member (2). The strip member (100) has a groove (101) extending along the length direction of the strip member (100) on its circumferential surface. The two ends of the connecting member (2) are respectively connected to two adjacent strip members (100), and at least one end of the connecting member (2) is connected to the groove (101) of the strip member (100).
2. The shooting studio as described in claim 1, characterized in that, The frame module (10) includes a planar frame (10a), which is assembled by piecing together multiple strip members (100) in a planar manner. The strip members (100) used to form the planar frame (10a) include straight members (100a) and / or curved members (100b).
3. The shooting studio as described in claim 1, characterized in that, The frame module (10) includes a curved frame (10b), which is assembled by splicing multiple strip components (100) within a preset curved surface; The strip member (100) used to form the curved frame (10b) includes an arc-shaped member (100b); or, the strip member (100) used to form the curved frame (10b) includes a straight member (100a) and an arc-shaped member (100b).
4. The shooting studio as described in claim 1, characterized in that, The shed frame (1) includes two vertically assembled strip members (100). The vertical assembly connection of the two strip members (100) is configured as an overlapping assembly connection; or, the vertical assembly connection of the two strip members (100) is configured as a coplanar assembly connection.
5. The shooting studio as described in claim 4, characterized in that, The connecting member (2) includes a first connecting corner piece (21), which has a first connecting end face (211) and a second connecting end face (212) that are perpendicular to each other. The first connecting end face (211) and the second connecting end face (212) are respectively connected to the grooves (101) of the two vertically assembled strip members (100) by a first fastener (213).
6. The shooting studio as described in claim 4, characterized in that, The connecting member (2) includes a second connecting corner piece (22), which has a first connecting corner (221) and a second connecting corner (222). The first connecting corner (221) and the second connecting corner (222) are hinged together, and the first connecting corner (221) and the second connecting corner (222) are respectively connected to the two vertically assembled strip members (100) by a second fastener (223). One of the first connecting angle (221) and the second connecting angle (222) is connected to the end of one of the strip members (100), and the other is connected to a groove (101) of one of the strip members (100).
7. The shooting studio as described in claim 1, characterized in that, The shed frame (1) includes two strip members (100) that are assembled and connected at opposite ends.
8. The shooting studio as described in claim 7, characterized in that, The connecting member (2) includes a plug-in connector (23), which has a first plug-in part (231) and a second plug-in part (232). The first plug-in part (231) and the second plug-in part (232) are respectively inserted into the grooves (101) of the strip member (100) whose ends are directly opposite to each other and are respectively fixed to their respective grooves (101) by a third fastener (233).
9. The shooting studio as described in claim 1, characterized in that, The shed frame (1) includes two strip members (100) that are stacked and aligned at the ends.
10. The shooting studio as described in claim 9, characterized in that, The connecting member (2) includes an embedded connector (24) and a tension bolt (25); The cross-sectional profile of the embedded connector (24) is I-shaped. The embedded connector (24) has a first embedded side (241) and a second embedded side (242) distributed sequentially along a first direction. The first embedded side (241) and the second embedded side (242) are respectively embedded in the grooves (101) of two stacked and aligned strip members (100). The embedded connector (24) has a first embedded section (24a) and a second embedded section (24b) distributed sequentially along a second direction. The mating end face (24c) of the first embedded section (24a) and the second embedded section (24b) is an inclined surface. The tensioning bolt (25) is used to tighten the first insert section (24a) and the second insert section (24b) along the second direction so that the first insert section (24a) and the second insert section (24b) clamp the two stacked and flush strip members (100) along the first direction.
11. The shooting studio as described in any one of claims 1-10, characterized in that, The outer contour of the cross section of the strip member (100) is rectangular, and the groove (101) is provided on all four circumferential surfaces of the strip member (100).
12. The shooting studio as described in any one of claims 1-10, characterized in that, The shooting studio also includes a mounting component (3), which includes a first connecting part (31) and a second connecting part (32) hinged to the first connecting part (31). The first connecting part (31) is slidably disposed in the groove (101) of the strip component (100), and the second connecting part (32) is used to connect the mounting device (4).