An outer frame structure of a touch all-in-one machine
By introducing adjustment components, including the design of movable cylinders and springs, into the outer frame structure of the touch screen all-in-one machine, the problem of the non-adjustable body angle is solved, enabling flexible adjustment of the body angle and improving the flexibility and practicality of use.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG YUANZHONG TECH CO LTD
- Filing Date
- 2025-08-12
- Publication Date
- 2026-07-03
AI Technical Summary
The existing all-in-one touch screen printers have a frame structure that does not allow for angle adjustment, limiting users to use them from specific positions and making them impractical.
An adjustment assembly was designed, comprising a body, a base, a support plate, a mounting base, a fixed cylinder, a spring, and a movable cylinder. The angle of the body is adjusted by sliding the movable cylinder and acting on the spring. Combined with the cooperation of the adjustment screw and the support column, the angle of the body can be flexibly adjusted.
It enables flexible adjustment of the machine body angle, improves the flexibility and practicality of use, and facilitates maintenance and use.
Smart Images

Figure CN224457367U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of touch screen all-in-one machine technology, and in particular to an outer frame structure for a touch screen all-in-one machine. Background Technology
[0002] A touch screen all-in-one PC integrates advanced touch screens, motherboards, memory, hard drives, graphics cards, and other electronic components, and its working principle is no different from that of a traditional PC. Existing touch screen all-in-one PCs have hundreds of infrared emitters and receivers, along with other electronic components, inside their bezels. When some of these emitters become unstable or fail, or when other electronic components malfunction, repairs are inconvenient. Therefore, the design of the touch screen bezel must also consider ease of maintenance.
[0003] Utility model patent CN208637089U discloses an outer frame structure for a touch screen all-in-one machine. A support plate is fixedly connected to the top of the base, and a body is fixedly connected to the top of the support plate. A first frame is movably connected to the top of the body, and first protrusions are fixedly connected to both sides of the bottom of the first frame. A third frame is movably connected to the bottom of the body, and a locking block is fixedly connected to the top of the third frame. The top of the locking block penetrates the body and extends into the interior of the body, and locking slots are provided on both sides of the locking block. Rotary shafts are rotatably connected to both sides of the top of the internal cavity of the body. The end is fixedly connected to the card plate, and the outer surface of the card plate is engaged with the inner surface of the card slot. Threaded seats are fixedly connected to the top of the inner cavity of the machine body and to both sides of the rotating shaft. Threaded blocks are threadedly connected to the surface of the threaded column, and locking teeth are fixedly connected to the outside of the threaded blocks. One side of the locking teeth meshes with one side of the gear. Through the cooperation of the above structure, the locking block is engaged in the card slot while the gear drives the limiting block to engage in the limiting groove for limiting. This avoids the complex structure of traditional screw and nut clamping. It facilitates maintenance when the performance of some lamps is unstable or fails, or when other electronic components have problems.
[0004] The above-mentioned design has the machine body fixedly connected to the top of the support plate, making it impossible to adjust the angle of the machine body. Users can only use the machine body in the corresponding position, which is not very practical. Utility Model Content
[0005] The purpose of this utility model is to provide an outer frame structure for a touch screen all-in-one machine that can adjust the angle of the machine according to the user's position, thus solving the problem that the user can only use the machine from a specific position, resulting in low practicality.
[0006] To achieve the above objectives, this utility model provides an outer frame structure for a touch screen all-in-one machine, including a body and an adjustment assembly. The adjustment assembly includes a base, a support plate, a mounting base, a fixed cylinder, a spring, and a movable cylinder. The support plate is rotatably connected to the base and is located above the base. The mounting base is fixedly connected to the support plate and is located above the support plate. The body is rotatably connected to the mounting base and is located above the mounting base. The base has multiple fixing holes spaced apart around the periphery of the support plate. The fixed cylinder is fixedly connected to the mounting base and is located below the mounting base. The movable cylinder is slidably connected to the fixed cylinder. The upper end of the movable cylinder is located inside the fixed cylinder, and the bottom of the movable cylinder is located inside one of the fixing holes. The two ends of the spring are fixedly connected to the fixed cylinder and the movable cylinder, respectively, and the spring is located inside the fixed cylinder.
[0007] The support plate has a limiting cylinder at its bottom and a limiting groove at its upper end that matches the limiting cylinder. The limiting cylinder is located inside the limiting groove.
[0008] The adjustment assembly further includes a toggle block, which is fixedly connected to the movable cylinder and is located on the outside of the movable cylinder.
[0009] The adjustment assembly further includes an adjustment screw, a support post, and a connecting block. The mounting base has a sliding groove, the support post is slidably connected to the mounting base, the bottom of the support post is located inside the sliding groove, the connecting block is slidably connected to the body, the top of the support post is rotatably connected to the connecting block, the adjustment screw is threadedly connected to the mounting base, and one end of the adjustment screw passes through the sliding groove and is rotatably connected to the support post.
[0010] The adjusting assembly further includes a rotating block, which is fixedly connected to the adjusting screw and is located at the end of the adjusting screw away from the supporting post.
[0011] The outer frame structure of this utility model for a touch screen all-in-one machine allows for adjustment of the machine's angle by sliding the movable cylinder upwards, causing it to retract from the fixing hole. This allows the mounting base to rotate relative to the base, thereby adjusting the machine's angle. This solves the problem that users can only use the machine from a specific position, resulting in low practicality. Attached Figure Description
[0012] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the accompanying drawings used in the description of the embodiments or the prior art will be briefly introduced below.
[0013] Figure 1 This is a schematic diagram of the outer frame structure of a touch screen all-in-one machine according to this utility model.
[0014] Figure 2 This is a structural cross-sectional view of the outer frame structure of a touch screen all-in-one machine according to this utility model.
[0015] Figure 3 This is a cross-sectional view of the outer frame structure of a touch screen all-in-one machine according to this utility model from another direction.
[0016] 100-Body, 210-Base, 211-Fixing Hole, 212-Limiting Groove, 220-Support Plate, 221-Limiting Cylinder, 230-Mounting Seat, 231-Slide Groove, 240-Fixing Cylinder, 250-Spring, 260-Moving Cylinder, 270-Toggle Block, 280-Adjusting Screw, 290-Supporting Column, 310-Connecting Block, 320-Rotating Block. Detailed Implementation
[0017] The embodiments of the present invention are described in detail below. Examples of the embodiments are shown in the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain the present invention, but should not be construed as limiting the present invention.
[0018] Please see Figures 1 to 3 , Figure 1 This is a structural diagram of the outer frame structure of a touch screen all-in-one machine according to this utility model. Figure 2 This is a structural cross-sectional view of the outer frame structure of a touch screen all-in-one machine according to this utility model. Figure 3 This is a cross-sectional view of the outer frame structure of a touch screen all-in-one machine according to this utility model from another direction.
[0019] This utility model provides an outer frame structure for a touch screen all-in-one machine, including a body 100 and an adjustment component. The adjustment component includes a base 210, a support plate 220, a mounting base 230, a fixed cylinder 240, a spring 250, a movable cylinder 260, a toggle block 270, an adjustment screw 280, a support post 290, a connecting block 310, and a rotating block 320.
[0020] In this specific embodiment, the support plate 220 is rotatably connected to the base 210, and the support plate 220 is located above the base 210. The mounting base 230 is fixedly connected to the support plate 220, and the mounting base 230 is located above the support plate 220. The machine body 100 is rotatably connected to the mounting base 230, and the machine body 100 is located above the mounting base 230. The base 210 is provided with a plurality of fixing holes 211 at intervals, and the plurality of fixing holes 211 surround the support plate 220. The fixed cylinder 240 is fixedly connected to the mounting base 230 on the periphery of the fixed cylinder 240, and the fixed cylinder 240 is located below the mounting base 230. The movable cylinder 260 is slidably connected to the fixed cylinder 240, the upper end of the movable cylinder 260 is located inside the fixed cylinder 240, and the bottom of the movable cylinder 260 is located inside one of the fixed holes 211. The two ends of the spring 250 are fixedly connected to the fixed cylinder 240 and the movable cylinder 260 respectively, and the spring 250 is located inside the fixed cylinder 240. The support plate 220 is rotatable relative to the base 210. The mounting base 230 is used to mount the body 100, which is rotatable relative to the mounting base 230. The fixed cylinders 240 are spaced apart on the side of the support plate 220. The movable cylinder 260 is slidable up and down relative to the fixed cylinder 240. The spring 250 presses the movable cylinder 260 downward, so that the bottom of the movable cylinder 260 presses into the interior of one of the fixing holes 211, thereby fixing the mounting base 230 and preventing it from rotating relative to the base 210. When the angle of the body 100 needs to be adjusted, the movable cylinder 260 can be slid upwards, causing it to retract from the fixing hole 211. This allows the mounting base 230 to rotate relative to the base 210, thereby adjusting the angle of the body 100. This solves the problem that users can only use the body 100 from a specific position, resulting in low practicality. After adjustment, the movable cylinder 260, under the resistance of the spring 250, repositions its bottom into another fixing hole 211, thus securing the mounting base 230 again for use. The body 100 has a size of 12.1 inches and a metal frame.
[0021] Furthermore, the bottom of the support plate 220 is provided with a limiting cylinder 221, and the upper end of the base 210 is provided with a limiting groove 212 adapted to the limiting cylinder 221. The limiting cylinder 221 is located inside the limiting groove 212. The limiting cylinder 221 can rotate inside the limiting groove 212, and the limiting cylinder 221 and the limiting groove 212 cooperate with each other to realize the rotational connection between the support plate 220 and the base 210.
[0022] Specifically, the actuating block 270 is fixedly connected to the movable cylinder 260, and the actuating block 270 is located on the outside of the movable cylinder 260. The actuating block 270 is provided on the side of the movable cylinder 260 to facilitate the upward sliding of the movable cylinder 260.
[0023] The mounting base 230 has a sliding groove 231, the supporting column 290 is slidably connected to the mounting base 230, the bottom of the supporting column 290 is located inside the sliding groove 231, the connecting block 310 is slidably connected to the body 100, the top of the supporting column 290 is rotatably connected to the connecting block 310, the adjusting screw 280 is threadedly connected to the mounting base 230, and one end of the adjusting screw 280 passes through the sliding groove 231 and is rotatably connected to the supporting column 290. The abutment post 290 can slide inside the slide groove 231. The connecting block 310 is used to connect the abutment post 290 and the body 100. When the adjusting screw 280 is rotated, the length of the adjusting screw 280 in the slide groove 231 will change, thereby enabling the adjusting screw 280 to drive the abutment post 290 to slide inside the slide groove 231. When the abutment post 290 moves, it can push the body 100 to rotate relative to the mounting base 230, thereby realizing the angle adjustment of the body 100.
[0024] Furthermore, the rotating block 320 is fixedly connected to the adjusting screw 280, and the rotating block 320 is located at the end of the adjusting screw 280 away from the supporting post 290. The rotating block 320 is provided at the end of the adjusting screw 280, allowing the adjusting screw 280 to be rotated.
[0025] The above-disclosed embodiments are merely one or more preferred embodiments of this application and should not be construed as limiting the scope of this application. Those skilled in the art can understand that all or part of the processes for implementing the above embodiments and equivalent changes made in accordance with the claims of this application still fall within the scope of this application.
Claims
1. A frame structure for a touch screen all-in-one machine, comprising a body, characterized in that, It also includes adjustment components; The adjustment assembly includes a base, a support plate, a mounting base, a fixed cylinder, a spring, and a movable cylinder. The support plate is rotatably connected to the base and is located above the base. The mounting base is fixedly connected to the support plate and is located above the support plate. The body is rotatably connected to the mounting base and is located above the mounting base. The base has multiple fixing holes spaced apart around the periphery of the support plate. The fixed cylinder is fixedly connected to the mounting base and is located below the mounting base. The movable cylinder is slidably connected to the fixed cylinder, with its upper end located inside the fixed cylinder and its bottom located inside one of the fixing holes. The two ends of the spring are fixedly connected to the fixed cylinder and the movable cylinder, respectively, and the spring is located inside the fixed cylinder.
2. The outer frame structure of the touch screen all-in-one machine as described in claim 1, characterized in that, The bottom of the support plate is provided with a limiting cylinder, and the upper end of the base is provided with a limiting groove that matches the limiting cylinder. The limiting cylinder is located inside the limiting groove.
3. The outer frame structure of the touch screen all-in-one machine as described in claim 1, characterized in that, The adjustment assembly further includes a toggle block, which is fixedly connected to the movable cylinder and is located on the outside of the movable cylinder.
4. The outer frame structure of the touch screen all-in-one machine as described in claim 1, characterized in that, The adjustment assembly further includes an adjustment screw, a support post, and a connecting block. The mounting base has a sliding groove, the support post is slidably connected to the mounting base, the bottom of the support post is located inside the sliding groove, the connecting block is slidably connected to the body, the top of the support post is rotatably connected to the connecting block, the adjustment screw is threadedly connected to the mounting base, and one end of the adjustment screw passes through the sliding groove and is rotatably connected to the support post.
5. The outer frame structure of the touch screen all-in-one machine as described in claim 4, characterized in that, The adjusting assembly further includes a rotating block, which is fixedly connected to the adjusting screw and is located at the end of the adjusting screw away from the abutment post.