A notebook rubber frame processing feeding machine
By designing a feeding machine with a support frame, conveying mechanism, limiting components, pushing components, and a resisting structure, the problem of positional displacement of the glue frame during the pushing process was solved, achieving stable positioning of the glue frame and efficient paint coating.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHONGQING GATERO PHOTOELECTRIC TECH CO LTD
- Filing Date
- 2025-06-17
- Publication Date
- 2026-06-09
AI Technical Summary
The existing feeding device for laptop frame processing does not fix the frame when pushing it, causing positional displacement and affecting the effect of paint coating.
The feeding machine is designed with a support frame, a conveying mechanism, a limiting component, a pushing component, a fixing frame, and an abutting structure. The connecting plate and the abutting component are driven by hydraulic cylinders and electric telescopic cylinders to fix the rubber frame, ensuring stable position during the pushing process.
It effectively prevents the glue frame from shifting position, ensuring the accuracy and efficiency of the paint coating process.
Smart Images

Figure CN224336580U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of notebook computer accessory manufacturing technology, and in particular to a feeding machine for processing notebook computer frames. Background Technology
[0002] Laptop frames require painting and adhesive coating. Traditional positioning devices offer poor stability, causing the frames to shift and making it difficult to position frames of different sizes. Therefore, a frame processing and feeding machine is needed. However, existing frame processing and feeding machines are inconvenient for loading and unloading laptop frames.
[0003] The prior art (CN221386988U) discloses a feeding device for processing notebook computer frames, including a base, a frame, a placement plate, and a clamping assembly, and also includes a feeding assembly. The feeding assembly includes a mounting frame, a conveyor belt, a baffle plate, a cylinder, a feeding seat, and a discharging component. The conveyor belt transports the notebook computer frames, and the cylinder drives the feeding seat to move, causing the feeding seat to push the notebook computer frames onto the placement plate of the discharging component. Then, the clamping assembly clamps the notebook computer frames, and the notebook computer frames are processed by a spray painting and coating equipment. After processing, the discharging component drives the processed notebook computer frames to move out of the frame, thereby achieving the purpose of facilitating the loading and unloading of notebook computer frames and improving processing efficiency.
[0004] However, using the above method, the loading base is not fixed when pushing the laptop frame. Therefore, the position of the laptop frame may shift during the process of pushing it to the unloading component, which will affect the subsequent painting and coating process. Utility Model Content
[0005] The purpose of this utility model is to provide a feeding machine for processing laptop frame, which aims to solve the problem that the feeding device for processing laptop frame does not fix the feeding base when pushing the laptop frame, so the position of the laptop frame may be offset during the process of pushing it to the unloading component, thus affecting the subsequent painting and coating process.
[0006] To achieve the above objectives, this utility model provides a feeding machine for processing notebook computer frames, including a base, a feeding component, and a feeding assembly.
[0007] The feeding assembly includes a support frame, a conveying mechanism, a limiting component, a connecting frame, a pushing component, a fixing frame, and two abutting structures;
[0008] The support frame is fixedly connected to the base and located on one side of the base; the conveying mechanism is located on one side of the support frame; the limiting member is located on one side of the support frame; the connecting frame is fixedly connected to the support frame and located on one side of the support frame; the pushing member is located on one side of the connecting frame; the fixed frame is fixedly connected to the pushing member and located on one side of the pushing member; two abutting structures are located on both sides of the fixed frame; each abutting structure includes a hydraulic cylinder, a connecting plate, a guide member, and an abutting member; the hydraulic cylinder is fixedly connected to the fixed frame and located on one side of the fixed frame; the connecting plate is fixedly connected to the output end of the hydraulic cylinder and located on one side of the hydraulic cylinder; the guide members are respectively located between the fixed frame and the connecting plate; the abutting member is located on one side of the connecting plate.
[0009] The limiting member includes a connecting part and a limiting block. The connecting part is fixedly connected to the support frame and is located on one side of the support frame. The limiting block is fixedly connected to the connecting part and is located on one side of the connecting part.
[0010] The propulsion component includes an electric telescopic cylinder, a telescopic rod, and a push block. The electric telescopic cylinder is fixedly connected to the connecting frame and is located on one side of the connecting frame. The telescopic rod is fixedly connected to the output end of the electric telescopic cylinder and is located on one side of the electric telescopic cylinder. The push block is fixedly connected to the telescopic rod and to the fixed frame, and is located on one side of the telescopic rod.
[0011] The guide component includes a guide cylinder and a guide rod. The guide cylinder is fixedly connected to the fixed frame and located on one side of the fixed frame. The guide rod is slidably connected to the guide cylinder and fixedly connected to the connecting plate, and located on one side of the guide cylinder.
[0012] The abutting component includes an abutting block and a soft pad. The abutting block is fixedly connected to the connecting plate and is located on one side of the connecting plate. The soft pad is fixedly connected to the abutting block and is located on one side of the abutting block.
[0013] This utility model discloses a feeding machine for processing laptop frames. The laptop frame is placed on a conveying mechanism, which then moves it to a limiting member for positioning. A pushing member drives a fixing frame closer to the laptop frame. Hydraulic cylinders on both sides of the fixing frame drive a connecting plate, guided by a guide member, which in turn moves an abutment member against the laptop frame, thus fixing it in place. After fixing the laptop frame, the pushing member moves the laptop frame to the unloading component for processing with a painting and coating equipment. This solves the problem in existing laptop frame feeding devices where the feeding seat is not fixed while pushing the laptop frame, which can cause the frame to shift during the unloading process, affecting subsequent painting and coating. Attached Figure Description
[0014] 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.
[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model.
[0016] Figure 2 This is a top view of the entire utility model.
[0017] Figure 3 This is a front view of the entire utility model.
[0018] Figure 4 yes Figure 1 A magnified view of a portion at point A.
[0019] 101-Base, 102-Feeding component, 103-Support frame, 104-Conveying mechanism, 105-Limiting component, 106-Connecting frame, 107-Propelling component, 108-Fixing frame, 109-Abutting structure, 110-Hydraulic cylinder, 111-Connecting plate, 112-Guide component, 113-Abutting component, 114-Connecting part, 115-Limiting block, 116-Electric telescopic cylinder, 117-Telescopic rod, 118-Push block, 119-Guide cylinder, 120-Guide rod, 121-Abutting block, 122-Soft pad. Detailed Implementation
[0020] The embodiments of this utility model are described in detail below. Examples of these embodiments are shown in the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain this utility model, and should not be construed as limiting this utility model.
[0021] Please see Figures 1-4 , Figure 1This is a schematic diagram of the overall structure of this utility model. Figure 2 This is a top view of the entire utility model. Figure 3 This is a front view of the entire utility model. Figure 4 yes Figure 1 A magnified view of a portion at point A.
[0022] This utility model provides a feeding mechanism for processing notebook computer frames, including a base 101, a feeding component 102, and a feeding assembly. The feeding assembly includes a support frame 103, a conveying mechanism 104, a limiting member 105, a connecting frame 106, a pushing member 107, a fixing frame 108, and two abutting structures 109. Each abutting structure 109 includes a hydraulic cylinder 110, a connecting plate 111, a guide member 112, and an abutting member 113. The limiting member 105 includes a connecting part 114 and a limiting block 115. The pushing member 107... Component 107 includes an electric telescopic cylinder 116, a telescopic rod 117, and a pusher block 118. The guide component 112 includes a guide cylinder 119 and a guide rod 120. The abutting component 113 includes an abutting block 121 and a soft pad 122. The aforementioned solution solves the problem that in existing notebook frame processing feeding devices, the feeding seat is not fixed when pushing the notebook frame, which may cause the notebook frame to shift in position during the process of pushing it to the unloading component 102, thus affecting the subsequent painting and coating process.
[0023] In this specific embodiment, the unloading component 102 is disposed on one side of the base 101; the base 101 is used to support the assembly of the unloading component 102 and the loading component. The unloading component 102 cooperates with the loading component to process and load the notebook frame. The unloading component 102 is prior art, and for details, please refer to the patent document with publication number CN221386988U. It will not be described in detail here.
[0024] The support frame 103 is fixedly connected to the base 101 and located on one side of the base 101; the conveying mechanism 104 is disposed on one side of the support frame 103; the limiting member 105 is disposed on one side of the support frame 103; the connecting frame 106 is fixedly connected to the support frame 103 and located on one side of the support frame 103; the pushing member 107 is disposed on one side of the connecting frame 106; the fixing frame 108 is fixedly connected to the pushing member 107 and located on one side of the pushing member 106. 07 One side; the two abutting structures 109 are respectively located on both sides of the fixing frame 108; the hydraulic cylinder 110 is fixedly connected to the fixing frame 108 and is located on one side of the fixing frame 108; the connecting plate 111 is fixedly connected to the output end of the hydraulic cylinder 110 and is located on one side of the hydraulic cylinder 110; the guide members 112 are respectively disposed between the fixing frame 108 and the connecting plate 111; the abutting member 113 is disposed on one side of the connecting plate 111, placing the laptop frame on the... The laptop frame is transported on the conveyor mechanism 104, which is existing technology, such as the conveyor belt in the patent document CN221386988U. The laptop frame is then moved to the limiting member 105 for limiting via the conveyor mechanism 104. Subsequently, the pusher 107 is controlled to drive the fixing frame 108 closer to one side of the laptop frame. Then, the hydraulic cylinders 110 on both sides of the fixing frame 108 are controlled to drive the connecting plate 111 through the guide member 112, which drives the abutment member 113 to abut against the laptop frame. After fixing the laptop frame, the pusher 107 is controlled again to move the laptop frame to the unloading member 102 for processing and unloading with the painting and coating equipment. This solves the problem of existing laptop frame processing loading devices where the loading seat is not fixed when pushing the laptop frame, which may cause the laptop frame to shift during the process of pushing it to the unloading member 102, thus affecting the subsequent painting and coating process.
[0025] Secondly, the connecting part 114 is fixedly connected to the support frame 103 and is located on one side of the support frame 103; the limiting block 115 is fixedly connected to the connecting part 114 and is located on one side of the connecting part 114. The connecting part 114 is used to support the assembly of the limiting block 115, and the limiting block 115 is used to block the notebook frame transported on the conveying mechanism 104.
[0026] Meanwhile, the electric telescopic cylinder 116 is fixedly connected to the connecting frame 106 and located on one side of the connecting frame 106; the telescopic rod 117 is fixedly connected to the output end of the electric telescopic cylinder 116 and located on one side of the electric telescopic cylinder 116; the push block 118 is fixedly connected to the telescopic rod 117 and to the fixing frame 108 and located on one side of the telescopic rod 117. The electric telescopic cylinder 116 controls the telescopic rod 117 to drive the push block 118 to push the fixing frame 108 closer to the notebook frame, thus completing the pushing of the notebook frame.
[0027] Additionally, the guide cylinder 119 is fixedly connected to the fixing frame 108 and located on one side of the fixing frame 108; the guide rod 120 is slidably connected to the guide cylinder 119 and fixedly connected to the connecting plate 111, and located on one side of the guide cylinder 119. The guide cylinder 119 is used to support the assembly of the guide rod 120, and the guide rod 120 is used to guide the connecting plate 111 so that the abutment 113 abuts against the notebook frame on the conveying mechanism 104.
[0028] Furthermore, the abutment block 121 is fixedly connected to the connecting plate 111 and is located on one side of the connecting plate 111; the soft pad 122 is fixedly connected to the abutment block 121 and is located on one side of the abutment block 121. The abutment block 121 is used to cooperate with the soft pad 122 to abut against the laptop frame on the conveying mechanism 104. The soft pad 122 is used to prevent the abutment block 121 from damaging the laptop frame when it abuts.
[0029] When using this invention, the laptop frame is placed on the conveying mechanism 104, and then the conveying mechanism 104 moves the laptop frame to the limiting block 115 for limiting. Then, the electric telescopic cylinder 116 drives the telescopic rod 117 to drive the push block 118 to push the fixing frame 108 closer to the laptop frame. Then, the hydraulic cylinders 110 on both sides of the fixing frame 108 drive the connecting plate 111 to be guided by the guide member 112, so that the abutment block 121 and the soft pad 122 abut against the laptop frame. After fixing the laptop frame, the electric telescopic cylinder 116 drives the push block 118 again to move the laptop frame into the unloading component 102. It is then used in conjunction with the painting and coating equipment for unloading. This solves the problem that in the existing laptop frame processing loading device, the loading seat is not fixed when pushing the laptop frame, so the position of the laptop frame may be offset during the process of pushing it to the unloading component 102, which will affect the subsequent painting and coating process.
[0030] 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 feeding machine for processing notebook computer frames, comprising a base and a feeding component, wherein the feeding component is disposed on one side of the base; characterized in that, It also includes the feeding components; The feeding assembly includes a support frame, a conveying mechanism, a limiting component, a connecting frame, a pushing component, a fixing frame, and two abutting structures; The support frame is fixedly connected to the base and located on one side of the base; the conveying mechanism is located on one side of the support frame; the limiting member is located on one side of the support frame; the connecting frame is fixedly connected to the support frame and located on one side of the support frame; the pushing member is located on one side of the connecting frame; the fixed frame is fixedly connected to the pushing member and located on one side of the pushing member; two abutting structures are located on both sides of the fixed frame; each abutting structure includes a hydraulic cylinder, a connecting plate, a guide member, and an abutting member; the hydraulic cylinder is fixedly connected to the fixed frame and located on one side of the fixed frame; the connecting plate is fixedly connected to the output end of the hydraulic cylinder and located on one side of the hydraulic cylinder; the guide members are respectively located between the fixed frame and the connecting plate; the abutting member is located on one side of the connecting plate.
2. The feeding machine for processing notebook computer frames as described in claim 1, characterized in that, The limiting component includes a connecting part and a limiting block. The connecting part is fixedly connected to the support frame and is located on one side of the support frame; the limiting block is fixedly connected to the connecting part and is located on one side of the connecting part.
3. The feeding machine for processing notebook computer frames as described in claim 2, characterized in that, The propulsion component includes an electric telescopic cylinder, a telescopic rod, and a push block. The electric telescopic cylinder is fixedly connected to the connecting frame and is located on one side of the connecting frame. The telescopic rod is fixedly connected to the output end of the electric telescopic cylinder and is located on one side of the electric telescopic cylinder. The push block is fixedly connected to the telescopic rod and to the fixed frame, and is located on one side of the telescopic rod.
4. The feeding machine for processing notebook computer frames as described in claim 3, characterized in that, The guide component includes a guide cylinder and a guide rod. The guide cylinder is fixedly connected to the fixed frame and located on one side of the fixed frame. The guide rod is slidably connected to the guide cylinder and fixedly connected to the connecting plate, and located on one side of the guide cylinder.
5. A feeding machine for processing notebook computer frames as described in claim 4, characterized in that, The abutting component includes an abutting block and a soft pad. The abutting block is fixedly connected to the connecting plate and is located on one side of the connecting plate. The soft pad is fixedly connected to the abutting block and is located on one side of the abutting block.