An antique window mullion and a processing device thereof
Through a unique cross-shaped distribution structure and hollow aluminum alloy tube design, combined with a multi-directional linkage processing device driven by a motor, the problems of simple structure and poor material durability of traditional window lattice have been solved, achieving a stable shape and efficient processing effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGSU SUTING BUILDING MATERIALS TECH CO LTD
- Filing Date
- 2025-06-23
- Publication Date
- 2026-06-09
AI Technical Summary
Traditional window lattice structures are simple, materials have poor durability, making it difficult to meet diverse architectural decoration needs and resulting in a short service life.
It adopts a unique cross-shaped distribution structure and aluminum alloy hollow tube design, combined with inclined surface welding, and a processing device that drives a two-way lead screw and threaded rod with a drive motor to achieve precise positioning and rapid welding.
It enhances the structural stability and connection strength of window frames, extends their service life, improves processing precision and efficiency, and reduces the scrap rate.
Smart Images

Figure CN224338838U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of window lattice technology, and in particular to an antique-style window lattice and its processing device. Background Technology
[0002] In the field of architectural decoration, antique-style window lattices, as an important carrier of traditional cultural elements, are widely used in the restoration of ancient buildings and modern antique-style buildings due to their unique aesthetic value and profound cultural connotation.
[0003] Traditional window lattice structures are relatively simple and lack innovation in design, making it difficult to meet the increasingly diverse architectural and decorative needs. Furthermore, the materials used in traditional window lattices are mostly not very durable, prone to deformation and corrosion, which not only affects aesthetics but also reduces the lifespan of the window lattices. Utility Model Content
[0004] The purpose of this utility model is to address the shortcomings of existing technologies by proposing an antique-style window lattice and its processing device. The window lattice has a novel design and a more stable structure after installation. At the same time, the processing device enables the various components of the window lattice to be quickly aligned, facilitating subsequent welding and greatly improving the welding efficiency of the window lattice.
[0005] To achieve the above objectives, the present invention adopts the following technical solution:
[0006] An antique-style window lattice and its processing device include four first straight tubes and two side tubes. The four first straight tubes are arranged in a cross shape. Two sloping surfaces are opened on the adjacent sides of each of the four first straight tubes. The adjacent sides of the four first straight tubes are welded together. The lower end of the lower first straight tube has two sloping surfaces. A second straight tube is provided at the lower end of the lower first straight tube. The upper end of the second straight tube has two sloping surfaces. The two side tubes are respectively welded to the left and right sides of the lower first straight tube. The second straight tube is welded below the two side tubes.
[0007] Preferably, the upper end of the first straight tube and the lower end of the second straight tube are both arc-shaped, and the first straight tube, the side tube and the second straight tube are all hollow aluminum alloy tubes.
[0008] This utility model also proposes a processing device for antique window lattices, including a processing table. The upper end of the processing table is provided with a cross groove. The inner walls of the left and right sides of the cross groove are rotatably connected to a bidirectional lead screw. The inner walls of the front and rear sides of the cross groove are rotatably connected to threaded rods. The two threaded rods and the bidirectional lead screw are provided with bevel gears that mesh with each other. The two threaded layers of the bidirectional lead screw and the two threaded rods are threadedly connected to sliders. The upper ends of the two sliders located on the left and right sides are fixedly connected to placement boxes. The inner walls of the front and rear sides of the two placement boxes are slidably connected to positioning blocks. The front and rear sides of the two placement boxes are fixedly connected to L-shaped plates. Each positioning block is elastically connected to the adjacent side of the corresponding L-shaped plate by a first spring. A drive motor is installed on the right side of the processing table. The output shaft end of the drive motor is fixedly connected to the bidirectional lead screw.
[0009] Preferably, a placement plate is fixedly connected to the upper end of both the front and rear sliders. Two fixing blocks are fixedly connected to the placement plate. Bolts are threaded through the two fixing blocks. Clamping plates are rotatably connected to the adjacent sides of the two mating bolts. Two telescopic rods are fixedly connected to the adjacent sides of the two fixing blocks and the clamping plates.
[0010] Preferably, the inner walls of both the front and rear sides of the placement box located on the right side are provided with a first opening, and the inner wall of the right side of the placement box located on the right side is provided with a second opening.
[0011] Preferably, the inner walls on both the front and rear sides of the second opening are provided with sliding grooves, and each of the two sliding grooves is provided with a stop block. The two stop blocks are elastically connected to the inner wall of the corresponding sliding groove by a second spring.
[0012] Preferably, the upper end of each of the positioning blocks and stops is rounded.
[0013] Compared with existing technologies, the advantages of this device are:
[0014] Compared with existing technologies, this antique-style window lattice enhances the stability and connection strength of the overall structure through a unique cross-shaped welded structure of the first straight tube, side tube, and second straight tube, combined with a sloping surface design. It not only has a novel and unique shape, but also meets diverse architectural decoration needs. At the same time, it uses aluminum alloy hollow tubes as materials, which have the characteristics of being lightweight, corrosion-resistant, and high-strength, overcoming the defects of traditional materials that are easy to deform and not durable, and significantly improving service life.
[0015] Compared with existing technologies, this antique window lattice processing device uses a drive motor to drive a two-way lead screw and a threaded rod, and achieves multi-directional linkage through bevel gear transmission. It can drive multiple sliders to move simultaneously. With the help of components such as placement box, positioning block, and clamping plate, it can accurately position and firmly fix window lattice components of different specifications and shapes, effectively improving processing accuracy and reducing scrap rate.
[0016] Compared with existing technologies, by opening the first and second openings on the right side of the placement box, the resulting cross component can be quickly aligned with the side tube and the second branch tube after multiple first straight tubes are welded together, and then re-welded, further improving the processing efficiency of the window frame. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the structure of an antique-style window lattice proposed in this utility model;
[0018] Figure 2 This is a schematic diagram of the structure of an antique window lattice processing device proposed in this utility model;
[0019] Figure 3 for Figure 2 Top view;
[0020] Figure 4 for Figure 3 Enlarged structural diagram at point A in the middle.
[0021] In the diagram: 1 First straight pipe, 2 Side pipe, 3 Second straight pipe, 4 Processing table, 5 Cross groove, 6 Drive motor, 7 Threaded rod, 8 Placement box, 9 Positioning block, 10 L-shaped plate, 11 First spring, 12 Bevel gear, 13 Placement plate, 14 Clamping plate, 15 Telescopic rod, 16 Bolt, 17 First opening, 18 Double-acting screw, 19 Second spring, 20 Stop block, 21 Second opening. Detailed Implementation
[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.
[0023] Reference Figure 1An antique-style window lattice and its processing device are disclosed, comprising four first straight tubes 1 and two side tubes 2. The side tubes 2 are formed by connecting two arc-shaped tubes and are formed by casting. The four first straight tubes 1 are arranged in a cross shape. Two sloping surfaces are opened on the adjacent sides of the four first straight tubes 1. The adjacent sides of the four first straight tubes 1 are welded together. The lower end of the lower first straight tube 1 is provided with two sloping surfaces. The lower end of the lower first straight tube 1 is provided with a second straight tube 3. The upper end of the second straight tube 3 is provided with two sloping surfaces. The two side tubes 2 are respectively welded to the left and right sides of the lower first straight tube 1. The second straight tube 3 is welded to the bottom of the two side tubes 2. The upper end of the upper first straight tube 1 and the lower end of the second straight tube 3 are both arc-shaped. The first straight tube 1, the side tubes 2 and the second straight tube 3 are all hollow aluminum alloy tubes.
[0024] Reference Figures 2-4 This utility model also proposes a processing device for antique window lattice, including a processing table 4. The upper end of the processing table 4 is provided with a cross groove 5. The inner walls of the left and right sides of the cross groove 5 are rotatably connected to a bidirectional lead screw 18. The inner walls of the front and rear sides of the cross groove 5 are rotatably connected to threaded rods 7. The two threaded rods 7 and the bidirectional lead screw 18 are provided with bevel gears 12 that mesh with each other. The two threaded layers of the bidirectional lead screw 18 and the two threaded rods 7 are threadedly connected to sliders. The upper ends of the two sliders on the left and right sides are fixedly connected to placement boxes 8. The inner walls of the front and rear sides of the two placement boxes 8 are slidably connected to positioning blocks 9. The front and rear sides of the two placement boxes 8 are fixedly connected to L-shaped plates 10. Each positioning block 9 is elastically connected to the adjacent side of the corresponding L-shaped plate 10 through a first spring 11. The elasticity of the first spring 11 is used to clamp the first straight tubes 1 on the left and right sides. A drive motor 6 is installed on the right side of the processing table 4. The output shaft end of the drive motor 6 is fixedly connected to the bidirectional lead screw 18.
[0025] The upper ends of the front and rear sliders are fixedly connected to a placement plate 13. Two fixing blocks are fixedly connected to the placement plate 13. Bolts 16 are threaded through the two fixing blocks. Clamping plates 14 are rotatably connected to the adjacent sides of the two mating bolts 16. Two telescopic rods 15 are fixedly connected to the adjacent sides of the two fixing blocks and the clamping plates 14. By rotating the bolts 16, the two clamping plates 14 move relative to each other to clamp the front and rear first straight tubes 1 or side tubes 2.
[0026] The placement box 8 on the right side has a first opening 17 on both the front and rear inner walls, and a second opening 21 on the right inner wall. The second opening 21 has a sliding groove on both the front and rear inner walls, and a stop 20 is provided in each of the two sliding grooves. The two stop blocks 20 are elastically connected to the inner wall of the corresponding sliding groove by a second spring 19. The stop blocks 20 are used to limit the movement of a single first straight tube 1, and also allow the welded cross-shaped workpiece to pass through the second opening 21.
[0027] The upper ends of each positioning block 9 and stop block 20 are rounded to facilitate the placement of the first straight tube 1 into the placement box 8, and to facilitate the pressing of the welded cross workpiece into the second opening 21.
[0028] The functional principle of this utility model can be explained by the following operation: First, four first straight tubes 1 are placed on the placement box 8 and the placement plate 13. The left side of the first straight tube 1 placed on the left side contacts the inner rear wall of the placement box 8, and the right side of the first straight tube 1 placed on the right side contacts the two stop blocks 20. At the same time, the intersection of the slope surface and the plane of the first straight tube 1 placed on the front and rear sides is flush with the side of the corresponding placement plate 13 near the bevel gear 12. Under the action of the first spring 11 and the positioning block 9, the left and right first straight tubes 1 will be clamped in the placement box 8. At the same time, multiple bolts 16 are rotated to make the corresponding two clamping plates 14 move relative to each other, clamping the front and rear first straight tubes 1. The drive motor 6 is controlled to run, so that the bidirectional lead screw 18 rotates. At the same time, the bevel gear 12 drives the two threaded rods 7 to rotate, so that the slope surfaces on the four first straight tubes 1 are aligned and contacted in sequence. At this time, welding can be performed.
[0029] After welding is completed, the welded workpiece is removed and placed in the placement box 8 on the right side, so that the welded workpiece passes through multiple first openings 17 and second openings 21. At this time, the two stops 20 will be pressed into the corresponding sliding grooves. Then, the output shaft of the drive motor 6 is reversed, so that the placement box 8 and the placement plate 13 are reset. Then, the second straight tube 3 is placed in the placement box 8 on the left side, and the two side tubes 2 are placed on the two placement plates 13. The bolt 16 is rotated again to limit the two side tubes 2. Then, the drive motor 6 is controlled to run, so that the two side tubes 2 are aligned and in contact with the second straight tube 3 and the slope surface of the welded workpiece again. Then, the workers perform welding again.
[0030] After welding is complete, remove the entire window frame, weld the reverse side, and then use a grinding assembly to grind the surface of the window frame.
[0031] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.
Claims
1. An antique-style window lattice, comprising four first straight tubes (1) and two side tubes (2), characterized in that: The four first straight pipes (1) are arranged in a cross shape. Two sloping surfaces are opened on the adjacent sides of the four first straight pipes (1). The adjacent sides of the four first straight pipes (1) are welded to each other. Two sloping surfaces are opened at the lower end of the first straight pipe (1) located below. A second straight pipe (3) is provided at the lower end of the first straight pipe (1) located below. Two sloping surfaces are provided at the upper end of the second straight pipe (3). The two side pipes (2) are respectively welded to the left and right sides of the first straight pipe (1) located below. The second straight pipe (3) is welded below the two side pipes (2).
2. The antique-style window lattice according to claim 1, characterized in that: The upper end of the first straight tube (1) and the lower end of the second straight tube (3) are both arc-shaped. The first straight tube (1), the side tube (2) and the second straight tube (3) are all hollow aluminum alloy tubes.
3. A processing device for antique-style window lattice, characterized in that, The machine includes a processing table (4), the upper end of which is provided with a cross groove (5). The inner walls of the left and right sides of the cross groove (5) are rotatably connected to a double-acting screw (18). The inner walls of the front and rear sides of the cross groove (5) are rotatably connected to threaded rods (7). The two threaded rods (7) and the double-acting screw (18) are provided with bevel gears (12) that mesh with each other. The two threaded layers of the double-acting screw (18) and the two threaded rods (7) are threadedly connected to sliders. The upper ends of the two sliders located on the left and right sides are fixedly connected to a placement box (8). The inner walls of the front and rear sides of the two placement boxes (8) are slidably connected to a positioning block (9). The front and rear sides of the two placement boxes (8) are fixedly connected to an L-shaped plate (10). Each positioning block (9) is elastically connected to the adjacent side of the corresponding L-shaped plate (10) by a first spring (11). A drive motor (6) is installed on the right side of the processing table (4). The output shaft end of the drive motor (6) is fixedly connected to the double-acting screw (18).
4. The processing device for antique window lattice according to claim 3, characterized in that: A placement plate (13) is fixedly connected to the upper end of both the front and rear sliders. Two fixing blocks are fixedly connected to the placement plate (13). Bolts (16) are threaded through the two fixing blocks. Clamping plates (14) are rotatably connected to the adjacent sides of the two mating bolts (16). Two telescopic rods (15) are fixedly connected to the adjacent sides of the two fixing blocks and the clamping plates (14).
5. The processing device for antique window lattice according to claim 3, characterized in that: The inner walls of the front and rear sides of the placement box (8) located on the right side are provided with a first opening (17), and the inner wall of the right side of the placement box (8) located on the right side is provided with a second opening (21).
6. The processing device for antique window lattice according to claim 5, characterized in that: The inner walls of the front and rear sides of the second opening (21) are provided with sliding grooves, and the two sliding grooves are provided with blocks (20). The two blocks (20) are elastically connected to the inner walls of the corresponding sliding grooves by the second spring (19).
7. The processing device for antique window lattice according to claim 6, characterized in that: The upper end of each of the positioning blocks (9) and stop blocks (20) is rounded.