A quick slotting device for multi-angle code

Abstract

The utility model discloses a kind of quick grooving devices of multi-angle code, belong to angle code processing technical field, including workbench and several clamping structures, workbench is equipped with rotary table, rotary table is equipped with cutting knife, workbench is equipped with two guide rails, two guide rails are located at the two sides of rotary table respectively, each guide rail is equipped with several clamping structures respectively, cutting knife is aligned with the guide rail of one side, rotating rotary table can make cutting knife align the guide rail of other side;Clamping structure includes outer frame, locking piece and pusher, pusher is mounted on outer frame, the output end of pusher is connected with locking piece, multiple angle codes are mounted in outer frame, locking piece is fixed to angle code by pusher drive;After grooving is completed, adjust cutting knife direction to cut the angle code on the guide rail of other side, it can be mounted in un-grooved angle code after cutting guide rail is completed to the angle code after grooving is disassembled, cutting grooving is carried out simultaneously to the angle code on the guide rail of other side, realize the quick grooving of multiple angle code.

Description

Technical Field

[0001] This utility model relates to the field of corner code processing technology, and in particular to a rapid grooving device for multi-corner codes. Background Technology

[0002] In fields such as architectural decoration and furniture manufacturing, corner brackets are widely used as important connecting accessories for right-angle connections or fixation of profiles (such as aluminum alloy profiles and plastic profiles). To meet different assembly requirements, corner brackets usually need to be grooved during the production process to accommodate connectors, screws, or other assembly structures. The grooving accuracy and processing efficiency directly affect the subsequent assembly quality and production schedule.

[0003] With industry development and increasing national energy conservation requirements, the industry is gradually improving the corner strength and waterproof and heat insulation performance of the assembled corner brackets. In order to improve the corner strength and waterproof and heat insulation performance of the assembled corner brackets, most high-end door and window manufacturers will process glue injection guide grooves on the left and right sides of the aluminum alloy corner brackets at 45 degrees. However, when the existing technology is used to groove the corner brackets, the corner brackets are usually installed in a fixture and then the corner brackets are processed and grooved. It is difficult to achieve grooving of multiple corner brackets, resulting in low processing efficiency. Utility Model Content

[0004] The main purpose of this invention is to provide a rapid grooving device for polygonal codes, which aims to achieve rapid grooving of polygonal codes.

[0005] To achieve the above objectives, this utility model proposes a rapid grooving device for multi-angle codes, comprising a worktable and several clamping structures. The worktable is equipped with a rotary table, which can rotate on the worktable and is equipped with a cutting blade. The worktable is equipped with two guide rails, which are located on both sides of the rotary table. Each guide rail is equipped with several clamping structures. The cutting blade is aligned with one of the guide rails and can rotate the rotary table to align the cutting blade with the other guide rail.

[0006] The clamping structure includes an outer frame, a locking member, and a pushing member. The outer frame is mounted in the guide rail and can move along the guide rail. The pushing member is mounted on the outer frame, and the output end of the pushing member is connected to the locking member. Multiple corner brackets are mounted in the outer frame, and the pushing member drives the locking member to fix the corner brackets.

[0007] Optionally, the workbench is provided with a first positioning hole and a second positioning hole, the first positioning hole and the second positioning hole being symmetrically arranged.

[0008] Optionally, the rotating platform is provided with a fixing hole, and a pin is provided in the fixing hole. When the fixing hole is aligned with the first positioning hole and the pin is inserted into the first positioning hole, the cutting blade is aligned with the guide rail on one side; when the fixing hole is aligned with the second positioning hole and the pin is inserted into the second positioning hole, the cutting blade changes direction and aligns with the guide rail on the other side.

[0009] Optionally, the outer frame is provided with a placement plate, and corner brackets are placed on the placement plate, which is located in the middle of the outer frame.

[0010] Optionally, the front end of the outer frame is provided with two inclined plates, which form an angle between them. The bend of the corner bracket can be inserted into the angle to position the corner bracket.

[0011] Optionally, a first groove is formed on the outer frame, and the first groove is aligned with the cutting blade.

[0012] Optionally, the lower end of the placement plate is provided with a locking block, which is locked in the guide rail and has ball bearings on both sides.

[0013] Optionally, the locking member has a second groove, which is aligned with the first groove.

[0014] Optionally, the workbench is provided with an adjustment table, the adjustment table is provided with a threaded column, and the threaded column is provided with a moving block.

[0015] Optionally, the workbench is provided with a drive motor for driving the cutting blade to rotate, and a protective frame is provided outside the drive motor, the protective frame being connected to the moving block.

[0016] Compared with the prior art, the present invention has the following beneficial effects:

[0017] This utility model relates to a rapid grooving device for multi-angle brackets. It includes a worktable and several clamping structures. The worktable has a rotating platform that can rotate and is equipped with a cutting blade. Two guide rails are located on opposite sides of the rotating platform. Each guide rail has several clamping structures. The cutting blade is aligned with one guide rail and can rotate the rotating platform to align with the other guide rail. Each clamping structure includes an outer frame, a locking component, and a pushing component. The outer frame is mounted in the guide rails and can move along them. The pushing component is mounted on the outer frame, and its output end is connected to the locking component. Multiple angle brackets are mounted in the outer frame, and the pushing component drives the locking component to fix the angle brackets. After grooving is completed, adjust the direction of the cutting blade to cut the corner code on the other side of the guide rail. The grooved corner code can be disassembled on the cut guide rail and an ungrooved corner code can be installed. At the same time, the corner code on the other side of the guide rail is cut and grooved to achieve rapid grooving of multiple corner codes. Attached Figure Description

[0018] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on the structures shown in these drawings without creative effort.

[0019] Figure 1 This is a structural schematic diagram of an embodiment of the rapid grooving device for polygonal codes of this utility model;

[0020] Figure 2 This is a structural schematic diagram of the rapid grooving device for the polygonal code of this utility model from another perspective.

[0021] Figure 3 A cross-sectional view showing the fit between the worktable and the rotary table;

[0022] Figure 4 This is a schematic diagram of the clamping structure;

[0023] Figure 5 This is a schematic diagram of the clamping structure from another perspective.

[0024] Explanation of icon numbers:

[0025]

[0026] The realization of the purpose, functional features and advantages of this utility model will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation

[0027] 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.

[0028] It should be noted that all directional indicators (such as up, down, left, right, front, back, etc.) in this utility model embodiment are only used to explain the relative positional relationship and movement of each component in a certain specific posture (as shown in the figure). If the specific posture changes, the directional indicator will also change accordingly.

[0029] Furthermore, the use of terms such as "first" and "second" in this utility model is for descriptive purposes only and should not be construed as indicating or implying their relative importance or implicitly specifying the number of technical features indicated. Therefore, a feature defined as "first" or "second" may explicitly or implicitly include at least one of that feature. Additionally, the technical solutions of the various embodiments can be combined with each other, but only on the basis of being achievable by those skilled in the art. When the combination of technical solutions is contradictory or impossible to implement, such a combination of technical solutions should be considered non-existent and not within the scope of protection claimed by this utility model.

[0030] This utility model proposes a rapid grooving device 100 for polygon codes.

[0031] like Figures 1-5 As shown, in one embodiment of this utility model, the rapid grooving device 100 for polygonal codes includes a worktable 10 and several clamping structures 20. The worktable 10 is provided with a rotary table 33, which can rotate on the worktable 10 and is provided with a cutting blade 41. The worktable 10 is provided with two guide rails 11, which are located on both sides of the rotary table 33. Each guide rail 11 is provided with several clamping structures 20. The cutting blade 41 is aligned with one of the guide rails 11 and can rotate the rotary table 33 so that the cutting blade 41 is aligned with the other guide rail 11.

[0032] The clamping structure 20 includes an outer frame 21, a locking member 22, and a pushing member 23. The outer frame 21 is mounted in the guide rail 11 and can move along the guide rail 11. The pushing member 23 is mounted on the outer frame 21, and the output end of the pushing member 23 is connected to the locking member 22. Multiple corner brackets 50 are mounted in the outer frame 21, and the pushing member 23 drives the locking member 22 to fix the corner brackets 50.

[0033] In this embodiment, the workbench 10 is equipped with a drive motor 40 that drives the cutting blade 41 to rotate. The drive motor 40 can be a common servo motor. The cutting blade 41 is a circular saw blade. The pusher 23 can be a miniature electric push rod. The outer frame 21 is equipped with a mobile power supply that provides power to the pusher 23. When the output end of the pusher 23 extends outward, the locking member 22 abuts against the corner bracket 50, so that the corner bracket 50 will not move during cutting and grooving.

[0034] The worktable 10 is provided with an adjustment platform 30, which is located on the rotary table 33 and can rotate with the rotary table 33 to adjust the angle and direction. The adjustment platform 30 is provided with a threaded post 31, and a moving block 32 is provided on the threaded post 31. The drive motor 40 is provided with a protective frame 42, which is connected to the moving block 32.

[0035] It is understood that the moving block 32 is connected to the threaded post 31 by a thread. When the threaded post 31 is rotated, the moving block 32 can only move along the threaded post 31 because the adjusting table 30 limits the moving block 32. This is used to adjust the longitudinal height position of the drive motor 40, thereby adjusting the position of the cutting blade 41, so as to better slot the corner code 50.

[0036] The guide rail 11 on each side has five clamping structures 20, or other numbers, which can be added or reduced according to actual production. It is understood that the corner bracket 50 is installed in the clamping structure 20, and then the clamping structure 20 is pushed by hand so that the corner bracket 50 passes under the cutting blade 41 for grooving. Alternatively, an electric push rod can be used to assist in pushing. After grooving the corner bracket 50 on one clamping structure 20, the subsequent clamping structures 20 are pushed along the guide rail 11 until all the corner brackets 50 on the clamping structures 20 of the guide rail 11 are cut. At this point, the rotary table 32 is rotated to adjust the direction of the cutting blade 41 so that the cutting blade 41 aligns with the guide rail 11 on the other side, and the corner brackets 50 on the other guide rail 11 are cut and grooved. Simultaneously, another worker disassembles the slotted corner bracket 50 on the other side, while the unslotted corner bracket 50 is installed on the clamping structure 20. This allows for the simultaneous cutting of one guide rail 11 and the installation and fixation of the corner bracket 50 on the other guide rail 11, enabling rapid cutting and slotting of multiple corner brackets 50 and improving work efficiency. It should be noted that this operation requires at least two workers working together: one for cutting and slotting, and the other for loading and unloading.

[0037] In one embodiment of the present invention, the worktable 10 is provided with a first positioning hole 13 and a second positioning hole 14, the rotary table 33 is provided with a fixing hole 34, and a pin 35 is provided in the fixing hole 34.

[0038] In this embodiment, the first positioning hole 13 and the second positioning hole 14 are symmetrically arranged, with an angle of 180° between them. When the fixing hole 34 is aligned with the first positioning hole 13 and the pin 35 is inserted into the first positioning hole 13, the cutting blade 41 is aligned with the guide rail 11 on one side. When the fixing hole 34 is aligned with the second positioning hole 14 and the pin 35 is inserted into the second positioning hole 14, the cutting blade 41 changes direction and aligns with the guide rail 11 on the other side. The pin 35 is used to position the rotary table 33 by being inserted into the first positioning hole 13 or the second positioning hole 14, which facilitates the adjustment of the direction of the rotary table 33, thereby changing the direction of the cutting blade 41.

[0039] In one embodiment of this utility model, the outer frame 21 is provided with a placement plate 24, and the corner bracket 50 is placed on the placement plate 24. The placement plate 24 is located in the middle of the outer frame 21. The front end of the outer frame 21 is provided with two inclined plates 25, and the two inclined plates 25 form an angle between them. The bent part of the corner bracket 50 can be inserted into the angle formed to position the corner bracket 50.

[0040] In this embodiment, by setting two inclined plates 25, the included angle formed between the two inclined plates 25 can quickly locate the corner code 50, making it faster and more accurate to place the corner code 50 into the outer frame 21 in the early stage.

[0041] In one embodiment of the present invention, a first groove 26 is provided on the outer frame 21, the first groove 26 is aligned with the cutting blade 41, and a second groove 27 is provided on the locking member 22, the second groove 27 is aligned with the first groove 26.

[0042] In this embodiment, the orientation of the first groove 26 and the second groove 27 is consistent with the cutting direction of the cutting blade 41. The first groove 26 is aligned with the cutting blade 41. During the forward movement of the outer frame 21, the cutting blade 41 passes through the first groove 26 without interfering with the outer frame 21. Then, the corner brackets 50 are slotted until the cutting blade 41 exits from the second groove 27, meaning all corner brackets 50 on the outer frame 21 have been slotted and cut. It should be noted that the direction of movement of the outer frame 21 does not affect the cutting of the corner brackets 50; moving the outer frame 21 forward or backward will complete the cutting of the corner brackets.

[0043] In one embodiment of the present invention, the lower end of the placement plate 24 is provided with a locking block 29, the locking block 29 is locked in the guide rail 11, and the two sides of the locking block 29 are provided with ball bearings 291.

[0044] In this embodiment, the cross-section of the guide rail 11 and the cross-section of the locking block 29 are both convex, which can effectively prevent the outer frame 21 from detaching when moving or from swinging when passing the cutting blade 41. Ball bearings 291 are installed on both sides of the locking block 29, which can reduce the friction between the locking block 29 and the side wall of the guide rail 11 and improve the smoothness of movement.

[0045] In one embodiment of the present invention, the outer frame 21 is provided with a boss 28, and the boss 28 is provided with a handle plate 281. The handle plate 281 extends out of the side of the outer frame 21, and the outer frame 21 can be moved by pushing the handle plate 281.

[0046] Working principle: First, place the corner brackets 50 on the clamping structure 20 and lock them in place. Then, move the clamping structure 20 at the front along the guide rail 11, passing it through the cutting blade 41. The cutting blade 41 slots the corner brackets 50. After slotting, continue moving the clamping structure 20 at the rear along the guide rail 11 until all the corner brackets 50 on this side of the guide rail 11 are cut. Then, pull the pin 35 out of the first positioning hole 13 and adjust the angle of the rotating table 33 so that the fixing hole 34... Aligning with the second positioning hole 14, insert the pin 35 into the second positioning hole 14 so that the cutting blade 41 aligns with the guide rail 11 on the other side. At this time, push the clamping structure 20 forward to cut the corner code 50. At the same time, another worker can disassemble the slotted corner code 50 on the other side and install the unslotted corner code 50 on the clamping structure 20. While cutting one guide rail 11, the corner code 50 can be installed and fixed on the other guide rail 11 first, realizing the rapid cutting and slotting of multiple corner codes 50 and improving work efficiency.

[0047] The above description is only a preferred embodiment of the present utility model and does not limit the patent scope of the present utility model. All equivalent structural transformations made under the inventive concept of the present utility model using the contents of the present utility model specification and drawings, or direct / indirect applications in other related technical fields, are included within the patent protection scope of the present utility model.

Claims

1. A rapid grooving device for polygonal codes, comprising a worktable and several clamping structures, characterized in that, The workbench is equipped with a rotary table, which can rotate on the workbench and is equipped with a cutting blade. The workbench is equipped with two guide rails, which are located on both sides of the rotary table. Each guide rail is equipped with several clamping structures. The cutting blade is aligned with one of the guide rails and can rotate the rotary table to align the cutting blade with the other guide rail. The clamping structure includes an outer frame, a locking member, and a pushing member. The outer frame is mounted in the guide rail and can move along the guide rail. The pushing member is mounted on the outer frame, and the output end of the pushing member is connected to the locking member. Multiple corner brackets are mounted in the outer frame, and the pushing member drives the locking member to fix the corner brackets.

2. The rapid grooving device for multi-corner codes as described in claim 1, characterized in that: The workbench is provided with a first positioning hole and a second positioning hole, which are symmetrically arranged.

3. The rapid grooving device for multi-corner codes as described in claim 2, characterized in that: The rotating platform is provided with a fixing hole, and a pin is provided in the fixing hole. When the fixing hole is aligned with the first positioning hole and the pin is inserted into the first positioning hole, the cutting blade is aligned with the guide rail on one side. When the fixing hole is aligned with the second positioning hole and the pin is inserted into the second positioning hole, the cutting blade changes direction and is aligned with the guide rail on the other side.

4. The rapid grooving device for multi-corner codes as described in claim 1, characterized in that: The outer frame is provided with a placement plate, and the corner brackets are placed on the placement plate, which is located in the middle of the outer frame.

5. The rapid grooving device for multi-corner codes as described in claim 4, characterized in that: The front end of the outer frame is provided with two inclined plates, which form an angle between them. The bend of the corner bracket can be inserted into the angle to position the corner bracket.

6. The rapid grooving device for multi-corner codes as described in claim 4, characterized in that: A first groove is formed on the outer frame, and the first groove is aligned with the cutting blade.

7. The rapid grooving device for multi-corner codes as described in claim 4, characterized in that: The lower end of the placement plate is provided with a locking block, which is locked in the guide rail and has ball bearings on both sides.

8. The rapid grooving device for multi-corner codes as described in claim 6, characterized in that: The locking member has a second groove, which is aligned with the first groove.

9. The rapid grooving device for multi-corner codes as described in claim 1, characterized in that: The workbench is equipped with an adjustment platform, the adjustment platform is equipped with a threaded column, and the threaded column is equipped with a moving block.

10. The rapid grooving device for multi-corner codes as described in claim 9, characterized in that: The workbench is equipped with a drive motor that drives the cutting blade to rotate. The drive motor is surrounded by a protective frame, which is connected to the moving block.

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