Door and window processing equipment with automatic feeding function

Abstract

The utility model discloses a door and window processing equipment with automatic feeding function belongs to door and window processing technical field, incline vibration table, be provided with a plurality of inclined roller on the vibration table rotation, the inclined lower end of vibration table is provided with the inclined flow guide platform, the inclined lower end of flow guide platform is fixedly provided with the workbench, the conveyer belt is rotationally arranged on the workbench, a plurality of support frames are fixedly arranged on the inclined lower end of roller, the support frame of the same side is fixedly provided with the fixed positive frame, the support frame opposite to fixed positive frame is fixedly provided with lockable telescopic link, the telescopic end of lockable telescopic link is fixedly provided with the adjustment positive frame, the positive rotation cylinder and photoelectric sensor are rotationally arranged on fixed positive frame and adjustment positive frame, and the processing subassembly is arranged above the conveyer belt.

Description

Technical Field

[0001] This utility model relates to the field of door and window processing technology, specifically to a door and window processing equipment with automatic feeding function. Background Technology

[0002] Door and window processing equipment is specialized machinery used to produce door and window profiles made of aluminum alloy, PVC, wood, etc. It includes cutting machines, drilling machines, milling machines, and other equipment used for cutting, drilling, milling, and assembly. When drilling door and window profiles, the profiles need to be conveyed to the bottom of the drilling machine. Traditional equipment requires multiple people to work together (loading, operating, and unloading), and frequent handling of the profiles. Much of the work involves manual loading, positioning, measurement, and marking, which is time-consuming, slows down drilling efficiency, and fails to guarantee consistent processing. Utility Model Content

[0003] To address the technical problems of traditional equipment requiring multiple personnel (for loading, operation, and unloading), frequent handling of door and window profiles, manual loading, positioning, measurement, and marking, which are time-consuming, slow drilling efficiency, and cannot guarantee processing consistency, this utility model provides a door and window processing equipment with automatic feeding function.

[0004] A door and window processing equipment with automatic feeding function includes an inclined vibrating table, several inclined rollers rotatably mounted on the vibrating table, an inclined guide platform at the lower end of the inclined vibrating table, a worktable fixedly mounted at the lower end of the inclined guide platform, a conveyor belt rotatably mounted on the worktable, several support frames fixedly mounted on the worktable, a fixed alignment frame fixedly mounted on the support frame on the same side as the lower end of the inclined rollers, a lockable telescopic rod fixedly mounted on the support frame opposite the fixed alignment frame, an adjustable alignment frame fixedly mounted on the telescopic end of the lockable telescopic rod, an alignment drum and a photoelectric sensor rotatably mounted on both the fixed alignment frame and the adjustable alignment frame, and a processing component mounted above the conveyor belt.

[0005] More preferably, the bottom walls of the vibration table, the guide table, and the worktable are all fixedly equipped with support columns. The support columns in the vibration table are elastically connected to the outer support cylinder through elastic elements. The outer wall of the vibration table and the worktable are respectively equipped with vibration motors and reduction motors through mounting brackets.

[0006] More preferably, the inclined upper end of the guide table is connected to the inclined lower end of the vibration table, and two drive rollers are rotatably arranged on the worktable. The two drive rollers can drive the conveyor belt transmission, and one of the drive rollers is set on the output end of the geared motor.

[0007] More preferably, a friction pad is fixedly installed on the conveyor belt, the processing component is set between two sets of support frames, the fixed alignment frame and two lockable telescopic rods are respectively set on the inner walls of the two sets of support frames, and several evenly arranged alignment drums are rotatably installed on the opposite side of the fixed alignment frame and the adjusting alignment frame, wherein the outer wall of the alignment drum in the fixed alignment frame is on the same vertical plane as one side of the friction pad.

[0008] More preferably, the photoelectric sensor includes a transmitter and a receiver, which are respectively fixedly installed at corresponding positions on the opposite surfaces of the fixed alignment frame and the adjustable alignment frame.

[0009] More preferably, the support frame in the middle has an inverted U-shaped structure, and the processing components include a Y-axis electric guide rail and an X-axis electric guide rail arranged perpendicularly to each other. A slider is slidably arranged in both the Y-axis electric guide rail and the X-axis electric guide rail. The Y-axis electric guide rail is fixedly arranged on the bottom wall of the support frame, and a horizontal plate is fixedly arranged at the bottom end of the slider in the Y-axis electric guide rail. The X-axis electric guide rail is fixedly arranged at the bottom end of the horizontal plate.

[0010] More preferably, the bottom end of the slider in the X-axis electric guide rail is fixedly provided with another lockable telescopic rod, and the telescopic end of the lockable telescopic rod is fixedly provided with a drilling machine.

[0011] Compared with existing technologies, the beneficial effects of this utility model are as follows: Compared with traditional equipment that requires multiple people to cooperate, automatic feeding only requires one person to monitor, saving labor costs in the long term. Workers do not need to frequently move materials, reducing the risk of muscle strain. The photoelectric sensor accurately positions the door frame profile, ensuring that the drilling machine drills in the same position each time, avoiding the deviation of manual positioning. The inclined vibration table and guide table can align the door frame profile to one side. In conjunction with the fixed alignment frame and the adjustable alignment frame, the door frame profile can be moved in the correct position, preventing it from shifting during the conveying process and drilling program. With the help of the PLC control system, the movement trajectory of the slider on the Y-axis electric guide rail and the X-axis electric guide rail can be controlled to adapt to the preset drilling path of different hole positions. Attached Figure Description

[0012] Figure 1 This is a front view schematic diagram of the structure of this utility model;

[0013] Figure 2 This is a top view of the structure of this utility model;

[0014] Figure 3 This is a side view of the structural processing component 12 of this utility model;

[0015] Figure 4 This is a right-side view of the vibration table 1 of this utility model;

[0016] Figure 5 This is a schematic diagram of part A of the structure of this utility model.

[0017] In the diagram: 1. Vibration table; 2. Guide table; 3. Workbench; 4. Conveyor belt; 5. Roller; 6. Support frame; 7. Fixed alignment frame; 8. Lockable telescopic rod; 9. Adjustable alignment frame; 10. Alignment rotary drum; 11. Photoelectric sensor; 12. Processing component; 13. Support column; 14. Elastic element; 15. Support outer cylinder; 16. Vibration motor; 17. Gear motor; 18. Drive roller; 19. Friction pad; 20. Transmitter; 21. Receiver; 22. Y-axis electric guide rail; 23. X-axis electric guide rail; 24. Slider; 25. Horizontal plate; 26. Drilling machine. Detailed Implementation

[0018] To enable those skilled in the art to better understand the present invention, the technical solutions of the present invention 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 invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort should fall within the protection scope of the present invention.

[0019] It should be noted that the terms "first," "second," etc., in the specification, claims, and accompanying drawings of this utility model are used to distinguish similar objects and are not necessarily used to describe a specific order or sequence. It should be understood that such data can be interchanged where appropriate for the embodiments of the utility model described herein. Furthermore, the terms "comprising" and "having," and any variations thereof, are intended to cover non-exclusive inclusion; for example, a process, method, system, product, or apparatus that comprises a series of steps or units is not necessarily limited to those steps or units explicitly listed, but may include other steps or units not explicitly listed or inherent to such processes, methods, products, or apparatus.

[0020] In this invention, the terms "upper," "lower," "left," "right," "front," "rear," "top," "bottom," "inner," "outer," "middle," "vertical," "horizontal," "lateral," and "longitudinal" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. These terms are primarily for the purpose of better describing this invention and its embodiments, and are not intended to limit the indicated device, element, or component to having a specific orientation, or to be constructed and operated in a specific orientation.

[0021] Furthermore, some of the aforementioned terms, besides indicating location or positional relationships, may also have other meanings. For example, the term "above" may, in certain circumstances, indicate a dependency or connection. Those skilled in the art can understand the specific meaning of these terms in this utility model based on the specific circumstances. Additionally, the term "multiple" should mean two or more.

[0022] It should be noted that, unless otherwise specified, the embodiments and features described in these embodiments of the present invention can be combined with each other. The following will refer to the accompanying drawings. Figures 1-5 The present invention will be described in detail with reference to the embodiments.

[0023] A door and window processing equipment with automatic feeding function includes an inclined vibrating table 1, on which several inclined rollers 5 are rotatably arranged. An inclined guide platform 2 is provided at the lower inclined end of the vibrating table 1, and a worktable 3 is fixedly provided at the lower inclined end of the guide platform 2. After the door frame profile is conveyed to the vibrating table 1 by the material conveyor belt, the vibrating table 1 vibrates and drives the door frame profile to move and align at the lower inclined end. Then, it is guided along the guide platform 2 to the worktable 3. With the cooperation of the fixed alignment frame 7 and the adjusting alignment frame 9, the door frame profile is aligned and then drilled.

[0024] The bottom walls of the vibration table 1, the guide table 2, and the worktable 3 are all fixedly equipped with support columns 13. The support column 13 in the vibration table 1 is elastically connected to the outer support cylinder 15 through an elastic element 14. The outer wall of the vibration table 1 and the worktable 3 are respectively equipped with a vibration motor 16 and a reduction motor 17 through a mounting bracket. When the vibration motor 16 is started, it drives the vibration table 1 to vibrate along the outer support cylinder 15 under the rebound action of the elastic element 14. The elastic element 14 is a strong rubber spring. When the vibration table 1 vibrates, the door frame profile will move along the inclined lower end under the action of vibration, and finally align with the side wall of the vibration table 1 at the inclined lower end, so that they are aligned one by one to avoid messiness.

[0025] The upper inclined end of the guide table 2 is connected to the lower inclined end of the vibration table 1. The guide table 2 is equipped with a side baffle to prevent the door frame profile from falling. The side baffle on the same side as the lower inclined end of the vibration table 1 is on the same vertical plane as the friction pad 19. The other side baffle is an inclined structure, and its guide end extends to the other end of the friction pad 19. The door frame profile can be slid along the guide table 2 into the friction pad 19 and moved and conveyed together with the conveyor belt 4.

[0026] A conveyor belt 4 is rotatably mounted on the workbench 3, and a friction pad 19 is fixedly mounted on the conveyor belt 4. Two drive rollers 18 are rotatably mounted on the workbench 3. The two drive rollers 18 can drive the conveyor belt 4, and one of the drive rollers 18 is mounted on the output end of the reduction motor 17.

[0027] The speed of the geared motor 17 can be adjusted according to the drilling requirements to automate the material feeding and drilling processes. The geared motor 17 drives the drive roller 18 to rotate, which in turn causes the conveyor belt 4 to rotate and transport the door frame profile on its friction pad 19 automatically.

[0028] Several support frames 6 are fixedly installed on the workbench 3. A fixed alignment frame 7 is fixedly installed on the support frame 6 on the same side as the inclined lower end of the roller 5. A lockable telescopic rod 8 is fixedly installed on the support frame 6 opposite to the fixed alignment frame 7. An adjustable alignment frame 9 is fixedly installed on the telescopic end of the lockable telescopic rod 8. The fixed alignment frame 7 and the two lockable telescopic rods 8 are respectively installed on the inner walls of the two sets of support frames 6.

[0029] The door frame profile falls onto the lower conveyor belt 4 along the guide platform 2, with one end flush with the friction pad 19, that is, flush with the fixed alignment frame 7. The other side of the adjustable alignment frame 9 can be locked in its extended length by a pre-set lockable telescopic rod 8, so that the distance between it and the fixed alignment frame 7 is exactly the same as the width of the door and window profile, thus playing the role of alignment and limiting. The lockable telescopic rod 8 is a technology that can be fixed at any telescopic position through a specific locking mechanism, and can be steplessly adjusted or locked in sections to adapt to different size requirements, such as dealing with various profile widths in door and window processing.

[0030] On the opposite sides of the fixed alignment frame 7 and the adjusting alignment frame 9, there are several evenly arranged alignment cylinders 10. The outer wall of the alignment cylinder 10 in the fixed alignment frame 7 is on the same vertical plane as one side of the friction pad 19. The door frame profile is conveyed forward along the rotation of the alignment cylinder 10, which can limit the door and window profile on the friction pad 19 and prevent it from shifting.

[0031] Both the fixed alignment frame 7 and the adjustable alignment frame 9 are rotatably equipped with an alignment drum 10 and a photoelectric sensor 11. The photoelectric sensor 11 includes a transmitter 20 and a receiver 21, which are respectively fixedly installed at corresponding positions on the opposite sides of the fixed alignment frame 7 and the adjustable alignment frame 9. When the door frame profile is transported to the photoelectric sensor 11, if an object blocks the transmitter 20 and prevents it from transmitting a pulse signal to the receiver 21, the processing assembly 12 is triggered to drill holes in the door frame profile.

[0032] A processing component 12 is installed above the conveyor belt 4. The processing component 12 is located between two sets of support frames 6. The support frame 6 in the middle has an inverted U-shaped structure. The processing component 12 includes a Y-axis electric guide rail 22 and an X-axis electric guide rail 23 that are arranged perpendicularly to each other. A slider 24 is slidably installed in both the Y-axis electric guide rail 22 and the X-axis electric guide rail 23. The Y-axis electric guide rail 22 is fixedly installed on the bottom wall of the support frame 6. A horizontal plate 25 is fixedly installed at the bottom end of the slider 24 in the Y-axis electric guide rail 22. The X-axis electric guide rail 23 is fixedly installed at the bottom end of the horizontal plate 25.

[0033] This equipment is also equipped with a PLC automatic control system. The sliding trajectory of the slider 24 at different drilling positions is preset in the system, so that it can stop at any position along the Y-axis electric guide rail 22 and the X-axis electric guide rail 23, and perform drilling operation at any position. The slider 24 in the Y-axis electric guide rail 22 drives the horizontal plate 25 to move along the Y-axis direction. Since the bottom end of the slider 24 in the X-axis electric guide rail 23 is fixedly provided with another lockable telescopic rod 8, and the telescopic end of the lockable telescopic rod 8 is fixedly provided with a drilling machine 26, the slider 24 in the X-axis electric guide rail 23 drives the drilling machine 26 to move along the X-axis direction. The drilling purpose can be automatically achieved according to the preset movement path.

[0034] The above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model. Various modifications and variations can be made to this utility model by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.

Claims

1. A door and window processing equipment with automatic feeding function, comprising an inclined vibrating table (1), characterized in that: Several inclined rollers (5) are rotatably mounted on the vibration table (1). An inclined guide platform (2) is mounted on the lower inclined end of the vibration table (1). A worktable (3) is fixedly mounted on the lower inclined end of the guide platform (2). A conveyor belt (4) is rotatably mounted on the worktable (3). Several support frames (6) are fixedly mounted on the worktable (3). A fixed alignment frame (7) is fixedly mounted on the support frame (6) on the same side as the lower inclined end of the rollers (5). A lockable telescopic rod (8) is fixedly mounted on the support frame (6) opposite to the fixed alignment frame (7). An adjustable alignment frame (9) is fixedly mounted on the telescopic end of the lockable telescopic rod (8). An alignment drum (10) and a photoelectric sensor (11) are rotatably mounted on both the fixed alignment frame (7) and the adjustable alignment frame (9). A processing component (12) is mounted above the conveyor belt (4).

2. The door and window processing equipment with automatic feeding function according to claim 1, characterized in that: The bottom walls of the vibration table (1), the guide table (2) and the worktable (3) are all fixedly equipped with support columns (13). The support column (13) in the vibration table (1) is elastically connected to the outer support cylinder (15) through an elastic element (14). The outer wall of the vibration table (1) and the worktable (3) are respectively equipped with a vibration motor (16) and a reduction motor (17) through a mounting frame.

3. The door and window processing equipment with automatic feeding function according to claim 2, characterized in that: The upper inclined end of the guide table (2) is connected to the lower inclined end of the vibration table (1). Two drive rollers (18) are rotatably installed on the worktable (3). The two drive rollers (18) can drive the conveyor belt (4) to drive the transmission, and one of the drive rollers (18) is installed on the output end of the reduction motor (17).

4. The door and window processing equipment with automatic feeding function according to claim 2, characterized in that: Friction pads (19) are fixedly installed on the conveyor belt (4). The processing component (12) is set between two sets of support frames (6). The fixed alignment frame (7) and two lockable telescopic rods (8) are respectively set on the inner walls of the two sets of support frames (6). Several evenly arranged alignment drums (10) are rotatably installed on the opposite side of the fixed alignment frame (7) and the adjusting alignment frame (9). The outer wall of the alignment drum (10) in the fixed alignment frame (7) is on the same vertical plane as one side of the friction pad (19).

5. A door and window processing equipment with automatic feeding function according to claim 4, characterized in that: The photoelectric sensor (11) includes a transmitter (20) and a receiver (21), which are respectively fixedly installed at corresponding positions on the opposite sides of the fixed alignment frame (7) and the adjustable alignment frame (9).

6. The door and window processing equipment with automatic feeding function according to claim 5, characterized in that: The support frame (6) in the middle has an inverted U-shaped structure. The processing component (12) includes a Y-axis electric guide rail (22) and an X-axis electric guide rail (23) arranged perpendicularly to each other. Sliders (24) are slidably arranged in both the Y-axis electric guide rail (22) and the X-axis electric guide rail (23). The Y-axis electric guide rail (22) is fixedly set on the bottom wall of the support frame (6). A horizontal plate (25) is fixedly set at the bottom end of the slider (24) in the Y-axis electric guide rail (22). The X-axis electric guide rail (23) is fixedly set at the bottom end of the horizontal plate (25).

7. A door and window processing equipment with automatic feeding function according to claim 6, characterized in that: The bottom end of the slider (24) in the X-axis electric guide rail (23) is fixedly provided with another lockable telescopic rod (8), and the telescopic end of the lockable telescopic rod (8) is fixedly provided with a drilling machine (26).

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