Aluminum alloy door and window processing and punching equipment
By introducing positioning and cleaning components into the drilling equipment for aluminum alloy doors and windows, the problems of drill bit alignment and debris collection have been solved, achieving high-precision drilling and thorough cleaning, thus improving the installation quality of aluminum alloy doors and windows.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGSU DELAIQI CURTAIN WALL DECORATION ENG CO LTD
- Filing Date
- 2025-06-09
- Publication Date
- 2026-06-26
AI Technical Summary
Existing aluminum alloy door and window positioning and drilling devices cannot ensure that the drill bit is aligned with the hole, which affects the drilling effect. In addition, debris is easily scattered during the drilling process, resulting in incomplete collection of scrap.
A drilling device for aluminum alloy doors and windows has been designed, comprising a positioning component and a cleaning component. The positioning component achieves precise positioning through a positioning pin and a rotating part, while the cleaning component collects debris through a brush and a slot structure.
It improves the accuracy of drilling holes in aluminum alloy doors and windows and the effect of debris collection, ensuring the quality of subsequent installation, and the cleaning component effectively cleans up residues inside the equipment.
Smart Images

Figure CN224406480U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of door and window processing technology, specifically relating to a drilling device for aluminum alloy door and window processing. Background Technology
[0002] Doors and windows made using extruded aluminum alloy profiles for frames, mullions, and sashes are called aluminum alloy doors and windows. During the manufacturing process, the location and size of holes need to be designed according to the usage requirements and installation environment of the aluminum alloy doors and windows. Drilling is then performed on the aluminum alloy doors and windows according to the designed hole positions. Care must be taken to ensure that the drilling depth and diameter match the design to guarantee the accuracy of the hole positions.
[0003] Existing aluminum alloy door and window positioning and drilling devices place the aluminum alloy doors and windows directly into the protective box. However, it is difficult for workers to determine whether the points to be drilled on the aluminum alloy doors and windows are aligned with the drilling bit, which affects the drilling effect and consequently the subsequent installation and use of the aluminum alloy doors and windows. Furthermore, the debris generated during the drilling process is easily splashed into the surrounding environment, affecting the debris collection effect of the scrap collection box. Utility Model Content
[0004] To address the problems mentioned in the background section, this invention provides a drilling device for aluminum alloy doors and windows, featuring positioning drilling and cleaning / debris removal.
[0005] To achieve the above objectives, this utility model provides the following technical solution: an aluminum alloy door and window processing drilling device, including a protective box, a base fixedly connected to the bottom of the protective box, a scrap material collection box inside the base, fixing mechanisms on both sides inside the protective box, a drilling mechanism on the protective box and above the fixing mechanisms, a cleaning component on the side wall of the scrap material collection box, and a positioning component on the drilling mechanism.
[0006] Preferably, the positioning component includes a fixed frame, a return spring, a moving rod, a rotating component, a mounting block, and a positioning pin. The fixed frame is fixedly connected above the drilling mechanism. The moving rod is slidably connected inside the fixed frame. The return spring is fixedly connected between the moving rod and the fixed frame. A mounting block is provided at one end of the moving rod. A rotating component is provided between the moving rod and the mounting block. A positioning pin is fixedly connected below the mounting block.
[0007] Preferably, guide posts are fixedly connected to both sides of the interior of the fixed frame, guide sleeves are fixedly connected to both sides of one end of the moving rod, and a limit plate is fixedly connected to one end of the guide post.
[0008] Preferably, the rotating component includes a rotating rod, a top plate, an L-shaped limiting rod, a fixed shaft, a bottom plate, and a rotating hole. One end of the rotating rod is fixedly connected to the top plate, and the bottom plate is fixedly connected to the bottom of the top plate. A rotating rod is provided between the top plate and the bottom plate. A rotating hole is provided inside the rotating rod at the position corresponding to the fixed shaft. An L-shaped limiting rod is fixedly connected to the side wall of the top plate and the bottom plate on one side of the rotating rod.
[0009] Preferably, the cleaning component includes a side box, a brush, and a slot. The side box is fixedly connected to the side wall of the scrap collection box, and a slot is provided on the side wall of the side box. A brush is inserted into the inside of the slot.
[0010] Preferably, the cleaning assembly further includes a partition plate, a winding rod, and a connecting rope. The partition plate is fixedly connected inside the side box and below the brush, and the winding rod is rotatably connected inside the side box and below the partition plate. The connecting rope is fixedly connected between the winding rod and the brush.
[0011] Compared with the prior art, the beneficial effects of this utility model are:
[0012] 1. This utility model features a positioning component. The aluminum alloy door / window is placed inside the protective housing, and then a moving rod is lowered. This lowering of the moving rod causes the mounting block and positioning pin to move downwards. Once the positioning pin is in contact with the side wall of the aluminum alloy door / window, force is applied to rotate the mounting block. This rotation causes a rotating rod to rotate. When the rotating rod is in contact with the side wall of the L-shaped limiting rod, the positioning pin rotates to directly below the drilling mechanism. The aluminum alloy door / window is then moved further. Once the drilling point on the aluminum alloy door / window is positioned at the positioning pin, the movement of the aluminum alloy door / window is stopped. This facilitates precise drilling of the aluminum alloy door / window, improving the accuracy of drilling and ensuring the subsequent installation and use of the aluminum alloy door / window.
[0013] 2. This utility model is equipped with a cleaning component. After drilling is completed on the aluminum alloy doors and windows, when there are residual debris on the inner wall of the aluminum alloy doors and windows and the protective box, the brush moves upward along the slot. When the brush moves away from the side box, the brush is used to clean the debris on the aluminum alloy doors and windows and the protective box. The cleaned debris falls into the scrap collection box. The movement of the brush drives the connecting rope to move, and the movement of the connecting rope drives the winding rod to rotate. This makes it easy for workers to clean the residual debris on the inner wall of the aluminum alloy doors and windows and the protective box, ensuring the scrap collection box effectively collects scrap. Attached Figure Description
[0014] Figure 1 This is a schematic diagram of the structure of this utility model;
[0015] Figure 2 This is a cross-sectional view of the drilling mechanism of this utility model;
[0016] Figure 3 This is a partial cross-sectional view of the connection state between the moving rod and the rotating rod of this utility model;
[0017] Figure 4 This is a cross-sectional view of the side box of this utility model.
[0018] In the diagram: 1. Protective housing; 2. Positioning assembly; 21. Fixing frame; 22. Return spring; 23. Moving rod; 24. Rotating component; 241. Rotating rod; 242. Top plate; 243. L-shaped limit rod; 244. Fixing shaft; 245. Base plate; 246. Rotating hole; 25. Mounting block; 26. Positioning pin; 3. Drilling mechanism; 4. Fixing mechanism; 5. Base; 6. Scrap collection box; 7. Cleaning assembly; 71. Side box; 72. Brush; 73. Divider plate; 74. Rewinding rod; 75. Connecting rope; 76. Slot. Detailed Implementation
[0019] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0020] Example 1
[0021] Please see Figure 1-4 The present invention provides the following technical solution: an aluminum alloy door and window processing drilling equipment, including a protective box 1, a base 5 fixedly connected to the lower part of the protective box 1, a scrap material collection box 6 provided inside the base 5, a fixing mechanism 4 provided on both sides of the interior of the protective box 1, a drilling mechanism 3 provided on the protective box 1 and above the fixing mechanism 4, a cleaning component 7 provided on the side wall of the scrap material collection box 6, and a positioning component 2 provided on the drilling mechanism 3.
[0022] Specifically, the positioning component 2 includes a fixed frame 21, a return spring 22, a moving rod 23, a rotating component 24, a mounting block 25, and a positioning pin 26. The fixed frame 21 is fixedly connected to the top of the drilling mechanism 3. The moving rod 23 is slidably connected inside the fixed frame 21. The return spring 22 is fixedly connected between the moving rod 23 and the fixed frame 21. The mounting block 25 is provided at one end of the moving rod 23. The rotating component 24 is provided between the moving rod 23 and the mounting block 25. The positioning pin 26 is fixedly connected to the bottom of the mounting block 25.
[0023] By adopting the above technical solution, the aluminum alloy door and window are placed inside the protective box 1, and then the moving rod 23 is moved down along the fixed frame 21. The moving rod 23 moves down, causing the return spring 22 to stretch and the mounting block 25 to move down. The mounting block 25 moves down, causing the positioning pin 26 to move down. When the positioning pin 26 moves and fits against the side wall of the aluminum alloy door and window, the rotating part 24 drives the mounting block 25 to rotate. The rotation of the mounting block 25 drives the positioning pin 26 to rotate directly below the drilling mechanism 3. Then, the aluminum alloy door and window are moved along the protective box 1. When the drilling point on the aluminum alloy door and window moves to the position of the positioning pin 26, the movement of the aluminum alloy door and window is stopped. Then, the rotating part 24 drives the positioning pin 26 to rotate away from the drilling mechanism 3, which facilitates the fixed-point drilling operation of the aluminum alloy door and window, improves the accuracy of drilling the aluminum alloy door and window, and ensures the subsequent installation and use effect of the aluminum alloy door and window.
[0024] Specifically, guide posts are fixedly connected to both sides of the interior of the fixed frame 21, guide sleeves are fixedly connected to both sides of one end of the moving rod 23, and a limit plate is fixedly connected to one end of the guide post.
[0025] By adopting the above technical solution, the moving rod 23 moves and drives the guide sleeve to move along the guide post. With the cooperation of the guide sleeve and the guide post, the stability of the moving rod 23 can be improved. When the guide sleeve moves and fits against the side wall of the limiting plate, the guide sleeve is blocked and stops moving, thereby preventing the moving rod 23 from continuing to move and avoiding the moving rod 23 from leaving the fixed frame 21.
[0026] Specifically, the rotating component 24 includes a rotating rod 241, a top plate 242, an L-shaped limiting rod 243, a fixed shaft 244, a bottom plate 245, and a rotating hole 246. One end of the moving rod 23 is fixedly connected to the top plate 242, and the fixed shaft 244 is fixedly connected to the bottom of the top plate 242. The end of the fixed shaft 244 away from the top plate 242 is fixedly connected to the bottom plate 245. The rotating rod 241 is arranged between the top plate 242 and the bottom plate 245. A rotating hole 246 is opened inside the rotating rod 241 at the position corresponding to the fixed shaft 244. An L-shaped limiting rod 243 is fixedly connected to the side wall of the top plate 242 and the bottom plate 245 on one side of the rotating rod 241.
[0027] By adopting the above technical solution, when it is necessary to adjust the position of the positioning pin 26, force is applied to rotate the mounting block 25. The rotation of the mounting block 25 drives the rotating rod 241 to rotate around the fixed shaft 244 under the action of the rotating hole 246. When the rotating rod 241 rotates and fits against the side wall of the L-shaped limiting rod 243, the rotating rod 241 is blocked and stops moving. At this time, the rotation of the mounting block 25 and the positioning pin 26 drives the hole punching mechanism 3 to the bottom, which makes it convenient for the staff to adjust the position of the positioning pin 26 and ensure the effectiveness of the positioning pin 26.
[0028] In this embodiment, the aluminum alloy door / window is placed inside the protective housing 1. Then, the moving rod 23 is moved down along the fixed frame 21. The downward movement of the moving rod 23 causes the return spring 22 to stretch and the mounting block 25 to move down. The downward movement of the mounting block 25 causes the positioning pin 26 to move down. After the positioning pin 26 moves and fits against the side wall of the aluminum alloy door / window, force is applied to rotate the mounting block 25. The rotation of the mounting block 25 causes the rotating rod 241 to rotate around the fixed axis 244 under the action of the rotating hole 246. When the rotating rod 241 rotates and fits against the side wall of the L-shaped limiting rod 243, the rotating rod 241 is blocked and stops moving. The rotation of the mounting block 25 and the rotating rod 241 causes the positioning pin 26 to move down. Rotate the aluminum alloy door and window directly under the drilling mechanism 3 component, and then move the aluminum alloy door and window along the protective box 1. When the drilling point on the aluminum alloy door and window moves to the position of the positioning pin 26, stop moving the aluminum alloy door and window. This facilitates the fixed-point drilling operation of the aluminum alloy door and window, improves the accuracy of drilling the aluminum alloy door and window, and ensures the subsequent installation and use effect of the aluminum alloy door and window. Then apply force to rotate the mounting block 25. The rotation of the mounting block 25 drives the positioning pin 26 to rotate away from the component of the drilling mechanism 3. Then use the drilling mechanism 3 to perform the drilling operation on the aluminum alloy door and window. The debris and scrap generated during the drilling process fall into the scrap collection box 6 for collection.
[0029] Example 2
[0030] The difference between this embodiment and embodiment 1 is that the cleaning component 7 includes a side box 71, a brush 72, and a slot 76. The side box 71 is fixedly connected to the side wall of the scrap collection box 6, and the slot 76 is provided on the side wall of the side box 71. The brush 72 is inserted into the inside of the slot 76.
[0031] Specifically, the cleaning assembly 7 also includes a partition plate 73, a winding rod 74, and a connecting rope 75. The partition plate 73 is fixedly connected to the inside of the side box 71 and below the brush 72. The winding rod 74 is rotatably connected to the inside of the side box 71 and below the partition plate 73. The connecting rope 75 is fixedly connected between the winding rod 74 and the brush 72.
[0032] By adopting the above technical solution, after the brush 72 is used, the operator can rotate the winding rod 74 with one hand and move the brush 72 into the slot 76 with the other hand, so that it fits against the side wall of the partition plate 73. The rotation of the winding rod 74 will drive the connecting rope 75 to be wound onto the outer side wall of the winding rod 74, which facilitates the placement of the brush 72. Under the action of the connecting rope 75, the brush 72 can be prevented from being lost.
[0033] In this embodiment, after drilling holes in the aluminum alloy doors and windows, when there are residual debris on the inner wall of the aluminum alloy doors and windows and the protective box 1, the brush 72 moves upward along the slot 76. After the brush 72 moves away from the side box 71, the brush 72 is used to clean the debris on the aluminum alloy doors and windows and the protective box 1, so that the cleaned debris falls into the scrap collection box 6. The movement of the brush 72 drives the connecting rope 75 to move, and the movement of the connecting rope 75 drives the winding rod 74 to rotate, which makes it convenient for the staff to clean the residual debris on the inner wall of the aluminum alloy doors and windows and the protective box 1, and ensures the scrap collection box 6 has a good scrap collection effect.
[0034] The structure and principle of the drilling mechanism 3, consisting of a lifting adjustment cylinder A, a lifting adjustment rod A, a connecting plate, a variable speed motor, a bearing connecting seat, a drilling bit, an adjustment hole A, an adjustment hole B, and mounting parts A and B, have been disclosed in the aluminum alloy door and window positioning drilling device disclosed in Chinese patent application No. 202221779853.6. Its working principle is as follows: Lifting adjustment cylinders A are installed on both sides of the top of the protective box 1, and the two lifting adjustment cylinders A are symmetrical about the vertical center line of the protective box 1. A lifting adjustment rod A is provided at the bottom of the lifting adjustment cylinder A, and the other end of the lifting adjustment rod A passes through the adjustment hole A on the protective box 1. Mounting parts A are installed on the other end of the lifting adjustment rod A, and mounting parts A are fixedly connected to mounting parts B by fastening bolts. Component B is installed on both sides of the upper surface of the connecting plate. A variable speed motor is installed at the center of the upper surface of the connecting plate. The output shaft of the variable speed motor passes through the through hole in the connecting plate and connects to the bearing connecting seat. A drilling bit is installed at the bottom of the bearing connecting seat. An adjustment hole B is opened at the center of the bottom of the protective box 1. When in use, the variable speed motor and the lifting adjustment cylinder A are started. The operation of the lifting adjustment cylinder A drives the lifting adjustment rod A to move down. The movement of the lifting adjustment rod A drives the connecting plate to move down. The movement of the connecting plate drives the variable speed motor and the drilling bit to move down. The operation of the variable speed motor drives the drilling bit to rotate. During the rotation and downward movement of the drilling bit, drilling can be performed on aluminum alloy doors and windows. The debris generated during the drilling process falls into the scrap collection box 6 through the adjustment hole B for collection.
[0035] The structure and principle of the fixing mechanism 4, which consists of a lifting adjustment cylinder B, a lifting adjustment rod B, and a clamping plate, in this utility model have been disclosed in the aluminum alloy door and window positioning and drilling device disclosed in Chinese patent application number 202221779853.6. Its working principle is as follows: Lifting adjustment cylinders B are fixedly connected to both sides of the interior of the protective box 1. The output end of the lifting adjustment cylinder B is fixedly connected to the lifting adjustment rod B. The end of the lifting adjustment rod B away from the lifting adjustment cylinder B is fixedly connected to the clamping plate. After the aluminum alloy door and window inside the protective box 1 is placed and adjusted, the two lifting adjustment cylinders B are started respectively. The operation of the lifting adjustment cylinders B drives the lifting adjustment rod B to move. The movement of the lifting adjustment rod B drives the clamping plate to move. When the two clamping plates are respectively attached to the two side walls of the aluminum alloy door and window, the lifting adjustment cylinders B are stopped. The clamping plates can be used to fix the aluminum alloy door and window.
[0036] The working principle and usage process of this utility model are as follows: The aluminum alloy door / window is placed inside the protective housing 1. Then, the moving rod 23 moves down along the fixed frame 21. The downward movement of the moving rod 23 causes the return spring 22 to stretch and the mounting block 25 to move down. The downward movement of the mounting block 25 causes the positioning pin 26 to move down. When the positioning pin 26 moves and fits against the side wall of the aluminum alloy door / window, force is applied to rotate the mounting block 25. The rotation of the mounting block 25 causes the rotating rod 241 to rotate around the fixed axis 244 under the action of the rotating hole 246. When the rotating rod 241 rotates and fits against the side wall of the L-shaped limiting rod 243, the rotating rod 241 is obstructed and stops moving. The rotation of the mounting block 25 and the rotating rod 241 causes the positioning pin 26 to rotate directly below the drilling mechanism 3. Then, the aluminum alloy door / window is moved along the protective housing 1. When the drilling point on the aluminum alloy door / window moves to the position of the positioning pin 26, the movement of the aluminum alloy door / window is stopped. This facilitates the fixed-point drilling operation of the aluminum alloy door / window, improving the drilling efficiency. The accuracy of the holes ensures the subsequent installation and use of the aluminum alloy doors and windows. Then, force is applied to rotate the mounting block 25. The rotation of the mounting block 25 causes the positioning pin 26 to rotate away from the components of the drilling mechanism 3. The drilling mechanism 3 then performs the drilling operation on the aluminum alloy doors and windows. During the drilling process, debris and scraps fall into the scrap collection box 6 for collection. After drilling is completed, when debris remains on the inner wall of the aluminum alloy doors and windows and the protective box 1, the brush 72 moves upward along the slot 76. Once the brush 72 moves away from the side box 71, it is used to clean the debris on the aluminum alloy doors and windows and the protective box 1, causing the cleaned debris to fall into the scrap collection box 6. The movement of the brush 72 moves the connecting rope 75, which in turn rotates the winding rod 74, facilitating the cleaning of any remaining debris on the inner wall of the aluminum alloy doors and windows and the protective box 1, ensuring the scrap collection box 6 effectively collects scraps.
[0037] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A drilling device for aluminum alloy doors and windows, comprising a protective box (1), a base (5) fixedly connected to the lower part of the protective box (1), a scrap collection box (6) provided inside the base (5), fixing mechanisms (4) provided on both sides of the interior of the protective box (1), and a drilling mechanism (3) provided on the protective box (1) and above the fixing mechanisms (4), characterized in that: A cleaning component (7) is provided on the side wall of the scrap collection box (6), and a positioning component (2) is provided on the punching mechanism (3).
2. The aluminum alloy door and window processing drilling equipment according to claim 1, characterized in that: The positioning component (2) includes a fixed frame (21), a return spring (22), a moving rod (23), a rotating component (24), a mounting block (25), and a positioning pin (26). The fixed frame (21) is fixedly connected above the drilling mechanism (3). The moving rod (23) is slidably connected inside the fixed frame (21). The return spring (22) is fixedly connected between the moving rod (23) and the fixed frame (21). The mounting block (25) is provided at one end of the moving rod (23). The rotating component (24) is provided between the moving rod (23) and the mounting block (25). The positioning pin (26) is fixedly connected below the mounting block (25).
3. The aluminum alloy door and window processing drilling equipment according to claim 2, characterized in that: The fixed frame (21) has guide columns fixedly connected to both sides inside, and guide sleeves are fixedly connected to both sides of one end of the moving rod (23). A limit plate is fixedly connected to one end of the guide column.
4. The aluminum alloy door and window processing drilling equipment according to claim 2, characterized in that: The rotating component (24) includes a rotating rod (241), a top plate (242), an L-shaped limiting rod (243), a fixed shaft (244), a bottom plate (245), and a rotating hole (246). One end of the moving rod (23) is fixedly connected to the top plate (242), and the bottom plate (245) is fixedly connected to the bottom of the top plate (242). A rotating rod (241) is provided between the top plate (242) and the bottom plate (245). A rotating hole (246) is provided inside the rotating rod (241) at the position corresponding to the fixed shaft (244). An L-shaped limiting rod (243) is fixedly connected to the side wall of the top plate (242) and the bottom plate (245) on one side of the rotating rod (241).
5. The aluminum alloy door and window processing drilling equipment according to claim 1, characterized in that: The cleaning component (7) includes a side box (71), a brush (72) and a slot (76). The side box (71) is fixedly connected to the side wall of the scrap collection box (6). The slot (76) is opened on the side wall of the side box (71), and the brush (72) is inserted into the inside of the slot (76).
6. The aluminum alloy door and window processing drilling equipment according to claim 5, characterized in that: The cleaning assembly (7) also includes a partition plate (73), a winding rod (74), and a connecting rope (75). The partition plate (73) is fixedly connected inside the side box (71) and below the brush (72). The winding rod (74) is rotatably connected inside the side box (71) and below the partition plate (73). The connecting rope (75) is fixedly connected between the winding rod (74) and the brush (72).