Aluminum plate cutting processing table
By designing the feeding components, fixing components, rotating motor, and locking structure of the aluminum plate cutting table, convenient replacement of the saw blade is achieved, solving the problem of the cutting operation being affected when the saw blade is damaged, and ensuring the continuity and accuracy of aluminum plate cutting.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHONGQING LISHAN TECHNOLOGY CO LTD
- Filing Date
- 2025-06-16
- Publication Date
- 2026-06-23
AI Technical Summary
In existing aluminum plate processing cutting equipment, the saw blade is fixedly mounted on the cutting motor, which makes it inconvenient to replace the saw blade when it is damaged, affecting subsequent normal cutting operations.
An aluminum plate cutting table was designed. The aluminum plate is guided onto the cutting table by a feeding component and fixed by a fixing component. A rotating motor drives the saw blade to rotate, and a translation component drives the saw blade to translate for cutting. When the saw blade is damaged, the locking hole of the plug is loosened by the locking structure, the damaged saw blade is removed and a working saw blade is inserted for fixing, so as to realize convenient replacement of the saw blade.
This solves the inconvenience of replacing damaged saw blades and ensures the continuity and accuracy of aluminum plate cutting operations.
Smart Images

Figure CN224390099U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of aluminum plate processing technology, and in particular to an aluminum plate cutting and processing table. Background Technology
[0002] Aluminum sheet is a common type of sheet material. When processing aluminum sheet, it usually needs to be cut. Currently, aluminum sheet is cut manually using a handheld cutting machine. When cutting decorative aluminum sheet, it is difficult to fix the aluminum sheet, making it difficult to cut the aluminum sheet accurately during the cutting process.
[0003] The prior art (CN220112459U) discloses a cutting device for aluminum plate processing, including a base frame, a processing table on the base frame, a support frame on the processing table, a plurality of first cylinders on the upper end of the support frame, a pressing component at the bottom end of the piston rod of the first cylinder, a mounting frame on the base frame, a reciprocating movable seat on the mounting frame, a cutting mechanism with adjustable angle on the movable seat, and a saw blade fixedly mounted on the output end of a cutting motor. By driving the cutting mechanism on the movable seat to reciprocate, the wobbling of the aluminum plate can be avoided during the cutting process, thereby improving the cutting accuracy of the aluminum plate.
[0004] However, with the above method, since the saw blade is fixedly mounted on the cutting motor, it is inconvenient to replace the saw blade when it is damaged, which in turn affects the subsequent normal cutting operation. Utility Model Content
[0005] The purpose of this utility model is to provide an aluminum plate cutting processing table, which aims to solve the problem that in existing aluminum plate cutting equipment, the saw blade is fixedly mounted on the cutting motor, making it inconvenient to replace the saw blade when it is damaged, thus affecting subsequent normal cutting operations.
[0006] To achieve the above objectives, this utility model provides an aluminum plate cutting processing table, including a cutting frame, a cutting table, and a cutting assembly. The cutting table is fixedly connected to the cutting frame and is located on one side of the cutting frame.
[0007] The cutting assembly includes a fixing component, two feeding components, a translation component, an assembly frame, a rotating motor, an assembly frame, two locking structures, a plug-in post, and a saw blade.
[0008] The fixing component is disposed on one side of the cutting table; the two feeding components are respectively disposed on one side of the cutting table; the translation component is disposed on one side of the cutting frame; the assembly frame is fixedly connected to the translation component and is located on one side of the translation component; the rotary motor is fixedly connected to the assembly frame and is located on one side of the assembly frame; the assembly frame is fixedly connected to the output end of the rotary motor and is located on one side of the rotary motor; the two locking structures are respectively disposed on one side of the assembly frame; the insertion post is located inside the assembly frame; the insertion post has two locking holes, which are respectively located on both sides of the insertion post; the saw blade is fixedly connected to the insertion post and is located on one side of the insertion post.
[0009] The fixing component includes a fixing frame, multiple hydraulic cylinders, and a hollow clamping plate. The fixing frame is fixedly connected to the cutting table and located on one side of the cutting table. The multiple hydraulic cylinders are respectively fixedly connected to the fixing frame and located on one side of the fixing frame. The hollow clamping plate is respectively fixedly connected to the output end of the multiple hydraulic cylinders and located on one side of the multiple hydraulic cylinders.
[0010] The feeding component includes a feeding frame and multiple feeding rollers. The feeding frame is fixedly connected to the cutting table and is located on one side of the cutting table. The multiple feeding rollers are rotatably connected to the feeding frame and are located on one side of the feeding frame.
[0011] The translation component includes a translation frame, a drive motor, a transmission screw, and a translation block. The translation frame is fixedly connected to the cutting frame and located on one side of the cutting frame. The drive motor is fixedly connected to the translation frame and located on one side of the translation frame. The transmission screw is fixedly connected to the output end of the drive motor and located on one side of the drive motor. The translation block is threadedly connected to the transmission screw and slidably connected to the translation frame, and then fixedly connected to the assembly frame and located on one side of the transmission screw.
[0012] The locking structure includes an operating box, a clamping cylinder, and a locking pin. The operating box is fixedly connected to the assembly frame and located on one side of the assembly frame. The clamping cylinder is fixedly connected to the operating box and located on one side of the operating box. The locking pin is fixedly connected to the output end of the clamping cylinder and located on one side of the clamping cylinder.
[0013] This utility model discloses an aluminum plate cutting processing table. During aluminum plate cutting operations, the aluminum plate is guided to the cutting table by the feeding component. The fixing component secures the aluminum plate against the feeding table. Then, the rotating motor drives the saw blade to rotate, and the translation component drives the rotating saw blade to translate and complete the cutting of the aluminum plate. When the saw blade is damaged and needs replacement, the locking structures on both sides of the assembly frame loosen the locking holes corresponding to the insertion pins on the saw blade. The saw blade is then removed, and a functional saw blade is inserted into the assembly frame through the insertion pins and secured by the locking structures on both sides. This completes the replacement of the saw blade, thus solving the problem in existing aluminum plate cutting equipment where the saw blade is fixedly mounted on the cutting motor, making it inconvenient to replace the damaged saw blade and affecting subsequent normal cutting operations. 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 front view of the entire utility model.
[0017] Figure 3 This is a structural schematic diagram of the entire utility model from another angle.
[0018] Figure 4 This is a cross-sectional view of the assembly frame, locking structure, and plug-in post of this utility model.
[0019] 101-Cutting frame, 102-Cutting table, 103-Fixed component, 104-Feeding component, 105-Transfer component, 106-Assembly frame, 107-Rotating motor, 108-Assembly frame, 109-Locking structure, 110-Plug-in post, 111-Saw blade, 112-Locking hole, 113-Fixed frame, 114-Hydraulic cylinder, 115-Hollow clamping plate, 116-Feeding frame, 117-Feeding roller, 118-Transfer frame, 119-Drive motor, 120-Transmission screw, 121-Transfer block, 122-Operation box, 123-Clamping cylinder, 124-Locking pin. 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 ,in, Figure 1 This is a schematic diagram of the overall structure of this utility model. Figure 2 This is a front view of the entire utility model. Figure 3 This is a structural schematic diagram of the entire utility model from another angle. Figure 4 This is a cross-sectional view of the assembly frame, locking structure, and plug-in post of this utility model.
[0022] This utility model provides an aluminum plate cutting processing table: including a cutting frame 101, a cutting table 102, and a cutting assembly. The cutting assembly includes a fixing component 103, two feeding components 104, a translation component 105, an assembly frame 106, a rotary motor 107, an assembly frame 108, two locking structures 109, a plug-in post 110, and a saw blade 111. The plug-in post 110 has two locking holes 112. The fixing component 103 includes a fixing frame 113, multiple hydraulic cylinders 114, and a hollow clamping plate 115. The feeding component 104 includes a feeding frame 116 and multiple feeding rollers 117. The translation component 105 includes a translation frame 118, a drive motor 119, a transmission screw 120, and a translation block 121. The locking structure 109 includes an operation box 122, a clamping cylinder 123, and a locking pin 124. The aforementioned solution solves the problem in existing aluminum plate processing cutting equipment where the saw blade is fixedly mounted on the cutting motor, making it inconvenient to replace the saw blade when it is damaged, thus affecting subsequent normal cutting operations.
[0023] In this specific embodiment, the cutting table 102 is fixedly connected to the cutting frame 101 and is located on one side of the cutting frame 101. The cutting frame 101 is used to support the cutting table 102 to cooperate with the cutting assembly to cut aluminum plates.
[0024] The components are as follows: The fixing member 103 is disposed on one side of the cutting table 102; two feeding members 104 are respectively disposed on one side of the cutting table 102; the translation member 105 is disposed on one side of the cutting frame 101; the assembly frame 106 is fixedly connected to the translation member 105 and located on one side of the translation member 105; the rotary motor 107 is fixedly connected to the assembly frame 106 and located on one side of the assembly frame 106; the assembly frame 108 is fixedly connected to the output end of the rotary motor 107 and located on one side of the rotary motor 107; two locking structures 109 are respectively disposed on one side of the assembly frame 108; the insertion post 110 is located inside the assembly frame 108; two locking holes 112 are respectively located on both sides of the insertion post 110; the saw blade 111 is fixedly connected to the insertion post 110 and located on one side of the insertion post 110, and is guided to the cutting table 102 by the feeding member 104. On the cutting table 102, the fixing member 103 is controlled to clamp and fix the aluminum plate, and then the rotating motor 107 is controlled to drive the saw blade 111 to rotate. The translation member 105 is controlled to drive the rotating saw blade 111 to translate and complete the cutting of the aluminum plate. When the saw blade 111 is damaged and needs to be replaced, the locking structure 109 on both sides of the assembly frame 108 is controlled to loosen the locking hole 112 at the corresponding position of the insertion post 110 on the saw blade 111. Then the saw blade 111 is removed and a functional saw blade 111 is inserted into the assembly frame 108 through the insertion post 110 and fixed by the locking structure 109 on both sides. The replacement of the saw blade 111 can be completed. This solves the problem that in existing aluminum plate cutting equipment, since the saw blade is fixed on the cutting motor, it is inconvenient to replace the saw blade when it is damaged, which affects the subsequent normal cutting operation.
[0025] Secondly, the fixing frame 113 is fixedly connected to the cutting table 102 and located on one side of the cutting table 102; the plurality of hydraulic cylinders 114 are respectively fixedly connected to the fixing frame 113 and are respectively located on one side of the fixing frame 113; the hollow pressing plate 115 is respectively fixedly connected to the output end of the plurality of hydraulic cylinders 114 and is located on one side of the plurality of hydraulic cylinders 114. The fixing frame 113 is used to support the assembly of the hydraulic cylinders 114 and control the hydraulic cylinders 114 to drive the hollow pressing plate 115 to press against the aluminum plate.
[0026] Meanwhile, the feeding rack 116 is fixedly connected to the cutting table 102 and is located on one side of the cutting table 102; the plurality of feeding rollers 117 are rotatably connected to the feeding rack 116 and are located on one side of the feeding rack 116 respectively. The feeding rack 116 is used to support the assembly of the plurality of feeding rollers 117, and the plurality of feeding rollers 117 are used to feed and guide the aluminum plate.
[0027] Additionally, the translation frame 118 is fixedly connected to the cutting frame 101 and located on one side of the cutting frame 101; the drive motor 119 is fixedly connected to the translation frame 118 and located on one side of the translation frame 118; the transmission screw 120 is fixedly connected to the output end of the drive motor 119 and located on one side of the drive motor 119; the translation block 121 is threadedly connected to the transmission screw 120 and slidably connected to the translation frame 118, and then fixedly connected to the assembly frame 106 and located on one side of the transmission screw 120. The drive motor 119 on the translation frame 118 drives the transmission screw 120 to rotate, and the transmission screw 120 drives the translation block 121 to slide on the translation frame 118, driving the saw blade 111 to translate and complete the cutting of the aluminum plate.
[0028] Furthermore, the operation box 122 is fixedly connected to the assembly frame 108 and located on one side of the assembly frame 108; the clamping cylinder 123 is fixedly connected to the operation box 122 and located on one side of the operation box 122; the locking pin 124 is fixedly connected to the output end of the clamping cylinder 123 and located on one side of the clamping cylinder 123, controlling the extension and retraction of the locking pin 124 driven by the clamping cylinder 123 to lock and release the locking hole 112 on the plug-in post 110.
[0029] In using this utility model, multiple feeding rollers 117 are used to feed and guide the aluminum plate. The hydraulic cylinder 114 drives the hollow clamping plate 115 to clamp the aluminum plate. Then, the rotary motor 107 is controlled to drive the saw blade 111 to rotate. The translation component 105 is controlled to drive the rotating saw blade 111 to translate and complete the cutting of the aluminum plate. When the saw blade 111 is damaged and needs to be replaced, the clamping cylinders 123 on the operation boxes 122 on both sides of the assembly frame 108 are controlled to drive the locking pin 124 to release the insertion post 110 on the saw blade 111. The saw blade 111 is then removed from the corresponding locking hole 112. The functional saw blade 111 is then inserted into the assembly frame 108 through the insertion post 110. The clamping cylinder 123 is controlled to drive the locking pin 124 to be inserted into the locking hole 112 on the insertion post 110 for fixation. This completes the replacement of the saw blade 111, thereby solving the problem that in existing aluminum plate processing cutting equipment, since the saw blade is fixedly mounted on the cutting motor, it is inconvenient to replace the saw blade when it is damaged, which affects subsequent normal cutting operations.
[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 implementing all or part of the above embodiments and making equivalent changes in accordance with the claims of this application still fall within the scope of this application.
Claims
1. An aluminum sheet cutting processing table, comprising a cutting frame and a cutting table, wherein the cutting table is fixedly connected to the cutting frame and is located on one side of the cutting frame; characterized in that, It also includes a cutting component; The cutting assembly includes a fixing component, two feeding components, a translation component, an assembly frame, a rotating motor, an assembly frame, two locking structures, a plug-in post, and a saw blade. The fixing component is disposed on one side of the cutting table; the two feeding components are respectively disposed on one side of the cutting table; the translation component is disposed on one side of the cutting frame; the assembly frame is fixedly connected to the translation component and is located on one side of the translation component; the rotary motor is fixedly connected to the assembly frame and is located on one side of the assembly frame; the assembly frame is fixedly connected to the output end of the rotary motor and is located on one side of the rotary motor; the two locking structures are respectively disposed on one side of the assembly frame; the insertion post is located inside the assembly frame; the insertion post has two locking holes, which are respectively located on both sides of the insertion post; the saw blade is fixedly connected to the insertion post and is located on one side of the insertion post.
2. The aluminum plate cutting and processing table as described in claim 1, characterized in that, The fixing component includes a fixing frame, multiple hydraulic cylinders, and a hollow clamping plate. The fixing frame is fixedly connected to the cutting table and is located on one side of the cutting table. The multiple hydraulic cylinders are respectively fixedly connected to the fixing frame and are respectively located on one side of the fixing frame. The hollow clamping plate is respectively fixedly connected to the output end of the multiple hydraulic cylinders and is located on one side of the multiple hydraulic cylinders.
3. The aluminum plate cutting and processing table as described in claim 2, characterized in that, The feeding component includes a feeding frame and multiple feeding rollers. The feeding frame is fixedly connected to the cutting table and located on one side of the cutting table. The multiple feeding rollers are rotatably connected to the feeding frame and are located on one side of the feeding frame.
4. The aluminum plate cutting and processing table as described in claim 3, characterized in that, The translation component includes a translation frame, a drive motor, a transmission screw, and a translation block. The translation frame is fixedly connected to the cutting frame and located on one side of the cutting frame. The drive motor is fixedly connected to the translation frame and located on one side of the translation frame. The transmission screw is fixedly connected to the output end of the drive motor and located on one side of the drive motor. The translation block is threadedly connected to the transmission screw and slidably connected to the translation frame, and then fixedly connected to the assembly frame and located on one side of the transmission screw.
5. The aluminum plate cutting and processing table as described in claim 4, characterized in that, The locking structure includes an operating box, a clamping cylinder, and a locking pin. The operating box is fixedly connected to the assembly frame and located on one side of the assembly frame; the clamping cylinder is fixedly connected to the operating box and located on one side of the operating box; the locking pin is fixedly connected to the output end of the clamping cylinder and located on one side of the clamping cylinder.