Color steel tile shearing equipment

The mechanized cutting of color steel tile shearing equipment solves the problem of low efficiency in manual cutting. By using cutting blades and lifting mechanisms, it achieves fast and stable cutting, solving the problems of slow speed and fatigue in manual cutting, and improving cutting efficiency and accuracy.

CN224463801UActive Publication Date: 2026-07-07CHONGQING ZHENBO STEEL STRUCTURE MANUFACTURING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHONGQING ZHENBO STEEL STRUCTURE MANUFACTURING CO LTD
Filing Date
2025-06-19
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In the existing technology, manual cutting of color steel tiles is inefficient. The operation speed of manual cutting tools is slow, especially when cutting longer or thicker color steel tiles. Workers need to spend a lot of time and energy, and long-term operation can easily lead to fatigue, further reducing cutting efficiency.

Method used

The color steel tile cutting equipment includes a cutting blade, a double-acting cylinder, a C-shaped frame, and a support plate. It uses mechanical power to drive the cutting blade for cutting, and combines a lifting mechanism and an adjustment groove to achieve precise adjustment, replacing manual cutting and improving cutting speed and stability.

Benefits of technology

It significantly improves cutting efficiency and avoids the inefficiency caused by slow manual operation and fatigue. Especially when cutting longer or thicker color steel tiles, the equipment can complete the cutting quickly, maintain high efficiency, and does not require long-term laborious operation.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224463801U_ABST
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Abstract

The utility model relates to the technical field of color steel tile shearing, specifically relates to a color steel tile shearing equipment, including cutting knife, double -acting cylinder, C -shaped frame and support plate, and the two output ends axle of double -acting cylinder all rotationally arranged have rotating lever, and the both ends of rotating lever all hingedly set up have lower movable link, and are provided with two connecting rods between two rotating levers, the inner top of C -shaped frame is provided with two fixed blocks, and the below of each fixed block all hingedly set up have two upper movable links, and the rotating lever of two output ends axle of double -acting cylinder rotationally arranged is hinged with upper movable link and lower movable link, and further drives cutting knife to carry out cutting action, realizes mechanized cutting operation, replaces manual cutting, and the equipment can quickly complete cutting action, greatly shortens cutting time, and worker does not need long time and hard operation, and will not produce fatigue like manual work because of long time operation, thereby always maintains efficient cutting state.
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Description

Technical Field

[0001] This utility model relates to the field of color steel tile shearing technology, and in particular to a color steel tile shearing device. Background Technology

[0002] In the practical application of color steel sheets, they often need to be cut according to different usage requirements. Currently, manual cutting is still used in many cases. When cutting manually, workers usually use simple manual cutting tools, such as angle grinders with cutting discs, handheld hacksaws, etc. When cutting, workers need to mark the required cutting dimensions on the surface of the color steel sheet, and then slowly operate the cutting tool along the dimensions to cut. For some small batches of simple shapes, this method can meet the needs to a certain extent. For example, when it is necessary to make small-scale repairs or adjustments to the color steel sheets on a construction site, workers can quickly complete the cutting work with experience and manual tools.

[0003] However, manual cutting is inefficient. The operation speed of manual cutting tools is relatively slow, especially when cutting long or thick corrugated steel sheets. Workers need to spend a lot of time and energy. Moreover, long hours of manual operation can easily make workers feel tired, further reducing cutting efficiency. Utility Model Content

[0004] The purpose of this utility model is to provide a color steel tile cutting device, which aims to solve the technical problems of low efficiency in manual cutting in the prior art, the relatively slow operation speed of manual cutting tools, especially when cutting long or thick color steel tiles, workers need to spend a lot of time and energy, and long-term manual operation can easily make workers feel tired, further reducing cutting efficiency.

[0005] To achieve the above objectives, this utility model employs a color steel tile shearing device, comprising a cutting blade, a double-acting cylinder, a C-shaped frame, and a support plate. Rotating rods are rotatably mounted on the two output shafts of the double-acting cylinder. Lower movable rods are hinged to both ends of each rotating rod, and two connecting rods are provided between the two rotating rods. Two fixing blocks are provided on the inner top of the C-shaped frame, and two upper movable rods are hinged below each fixing block. The two upper movable rods are respectively hinged to their corresponding rotating rods and located on the rotating rods. The two lower movable rods are respectively hinged to the cutting blade and located above the cutting blade, which is located below the double-acting cylinder. The double-acting cylinder is located below the C-shaped frame, and the C-shaped frame is positioned above the support plate.

[0006] The inner top of the C-shaped frame is provided with two vertical rods. One end of each vertical rod is provided with a base plate. Both ends of the cutting blade are provided with vertical sleeves, and the vertical sleeves are slidably connected to the corresponding vertical rods and are fitted onto the vertical rods.

[0007] The C-shaped frame has adjustment grooves at both ends, and the support plate has adjustment plates at both ends. The two adjustment plates are slidably connected to the C-shaped frame and are located in the corresponding adjustment grooves.

[0008] The color steel tile shearing equipment further includes a lifting mechanism, which comprises two rotating sleeves and multiple positioning rods. One of the rotating sleeves is driven by a motor. A sprocket is located above the rotating sleeve, and a lifting screw is located below the rotating sleeve. The adjusting plate has a threaded groove and two positioning grooves. The two rotating sleeves are rotatably connected to the C-shaped frame through bearings and are located at both ends of the C-shaped frame. The sprocket between the two rotating sleeves is driven by a chain. The lifting screw extends into the corresponding adjusting groove and is threadedly connected to the corresponding adjusting plate and located in the threaded groove. The multiple positioning rods are fixedly connected to the corresponding adjusting plate, located in the corresponding adjusting groove, and also extend into the corresponding positioning groove.

[0009] The adjustment plate has a scale on its end face, and both sides of the C-shaped frame are provided with indicator arrows, which point to the values ​​corresponding to the scale.

[0010] This utility model discloses a color steel tile cutting device, comprising a cutting blade, a double-acting cylinder, a C-shaped frame, and a support plate. Rotating rods are rotatably mounted on the two output shafts of the double-acting cylinder. Lower movable rods are hinged to both ends of each rotating rod, and two connecting rods are provided between the two rotating rods. Two fixed blocks are provided on the inner top of the C-shaped frame, and two upper movable rods are hinged to the bottom of each fixed block. The rotating rods on the two output shafts of the double-acting cylinder are hinged to the upper and lower movable rods, thereby driving the cutting blade to perform a cutting action. This achieves mechanized cutting operation, replacing manual cutting. Compared to the slow operation speed of manual cutting tools, this device utilizes mechanical... This machine can quickly complete the cutting action, greatly shortening the cutting time. Its advantages are even more obvious when cutting longer or thicker corrugated steel sheets. It eliminates the need for workers to operate for long periods of time and effort. Moreover, the machine can work continuously without fatigue like humans do, thus maintaining a high-efficiency cutting state at all times. This significantly improves cutting efficiency and effectively avoids the inefficiency caused by slow speed and fatigue in manual cutting. This method effectively solves the technical problems of low efficiency in manual cutting, where the operation speed of manual cutting tools is relatively slow, especially when cutting longer or thicker corrugated steel sheets. Workers need to spend a lot of time and energy, and prolonged manual operation can easily cause worker fatigue, further reducing cutting efficiency. Attached Figure Description

[0011] 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 these drawings without creative effort.

[0012] Figure 1 This is a three-dimensional perspective view of the color steel tile shearing equipment of this utility model.

[0013] Figure 2 This is the front view of the color steel tile shearing equipment of this utility model.

[0014] Figure 3 This is the utility model Figure 2 A cross-sectional view along line AA in the middle.

[0015] Figure 4 This is the utility model Figure 3 A cross-sectional view along the BB line.

[0016] 1-Cutter blade, 2-Double-acting cylinder, 3-C-shaped frame, 4-Support plate, 5-Rotating rod, 6-Lower movable rod, 7-Connecting rod, 8-Fixing block, 9-Upper movable rod, 10-Vertical rod, 11-Base plate, 12-Vertical sleeve, 13-Adjusting groove, 14-Adjusting plate, 15-Rotating sleeve, 16-Positioning rod, 17-Motor, 18-Sprocket, 19-Lifting screw, 20-Positioning groove, 21-Scale, 22-Indicating arrow, 23-Chain. Detailed Implementation

[0017] The embodiments of this utility model are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain this utility model, and should not be construed as limiting this utility model.

[0018] Please see Figures 1 to 4 This utility model provides a color steel tile cutting device, including a cutting blade 1, a double-acting cylinder 2, a C-shaped frame 3, and a support plate 4. The double-acting cylinder 2 has rotating rods 5 rotatably mounted on both output shafts. Each rotating rod 5 has a lower movable rod 6 hinged to both ends, and two connecting rods 7 are provided between the two rotating rods 5. The inner top of the C-shaped frame 3 has two fixing blocks 8, and each fixing block 8 has two upper movable rods 9 hinged below it. The two upper movable rods 9 are respectively hinged to the corresponding rotating rod 5 and located on the rotating rod 5. The two lower movable rods 6 are respectively hinged to the cutting blade 1 and located above the cutting blade 1, which is located below the double-acting cylinder 2. The double-acting cylinder 2 is located below the C-shaped frame 3, and the C-shaped frame 3 is located above the support plate 4.

[0019] In this embodiment, the rotating rod 5 is hinged to the upper movable rod 9 and the lower movable rod 6 on the two output shafts of the double-acting cylinder 2, thereby driving the cutting blade 1 to perform a cutting action. This achieves mechanized cutting operation, replacing manual cutting. Compared to the slow operation speed of manual cutting tools, this equipment uses mechanical power to quickly complete the cutting action, greatly shortening the cutting time. Its advantages are even more obvious when cutting longer or thicker corrugated steel sheets. It eliminates the need for workers to operate for long periods of time and effort. Moreover, the equipment can work continuously without fatigue like humans do, thus maintaining a high-efficiency cutting state and significantly improving cutting efficiency. It effectively avoids the inefficiency caused by slow speed and fatigue during manual cutting. This method effectively solves the technical problems of low efficiency in manual cutting, the relatively slow operation speed of manual cutting tools, especially when cutting longer or thicker corrugated steel sheets, where workers need to spend a lot of time and energy, and prolonged manual operation easily leads to worker fatigue, further reducing cutting efficiency.

[0020] Furthermore, the inner top of the C-shaped frame 3 is provided with two vertical rods 10. One end of each vertical rod 10 is provided with a base plate 11, and both ends of the cutting blade 1 are provided with vertical sleeves 12. The vertical sleeves 12 are slidably connected to the corresponding vertical rods 10 and are fitted onto the vertical rods 10.

[0021] In this embodiment, the cooperation between the vertical rod 10 and the vertical sleeve 12 during the cutting process ensures that the cutting blade 1 moves along a predetermined straight line, improving the cutting accuracy and stability, and preventing the cutting blade 1 from shaking or deviating during cutting, thereby ensuring the neatness and dimensional accuracy of the cut edges of the color steel tile.

[0022] Furthermore, both ends of the C-shaped frame 3 have adjustment grooves 13, and both ends of the support plate 4 are provided with adjustment plates 14. The two adjustment plates 14 are slidably connected to the C-shaped frame 3 and are located in the corresponding adjustment grooves 13.

[0023] Furthermore, the color steel tile shearing equipment also includes a lifting mechanism, which includes two rotating sleeves 15 and multiple positioning rods 16. One of the rotating sleeves 15 is driven by a motor 17. A sprocket 18 is provided above the rotating sleeve 15, and a lifting screw 19 is provided below the rotating sleeve 15. The adjusting plate 14 has a threaded groove and two positioning grooves 20. The two rotating sleeves 15 are rotatably connected to the C-shaped frame 3 through bearings and are located at both ends of the C-shaped frame 3. The sprocket 18 between the two rotating sleeves 15 is driven by a chain 23. The lifting screw 19 extends into the corresponding adjusting groove 13. The lifting screw 19 is threadedly connected to the corresponding adjusting plate 14 and is located in the threaded groove. The multiple positioning rods 16 are fixedly connected to the corresponding adjusting plate 14 and are located in the corresponding adjusting groove 13, and also extend into the corresponding positioning groove 20.

[0024] In this embodiment, the motor 17 drives one of the rotating sleeves 15, which in turn drives the sprocket 18 and the chain 23, thereby causing the lifting screw 19 to rotate. The lifting screw 19 is threadedly connected to the threaded groove in the adjusting plate 14, realizing the lifting movement of the C-shaped frame 3. This electric adjustment method is more precise and convenient than manual adjustment, and can quickly and accurately adjust the cutting blade 1 to the required height. The cooperation of multiple positioning rods 16 with the adjusting plate 14 and the adjusting groove 13 enhances the stability and positioning accuracy of the adjusting plate 14, preventing displacement of the adjusting plate 14 during the cutting process. This lifting mechanism allows the equipment to quickly adjust the position of the cutting blade 1 according to different cutting requirements, improving production efficiency and cutting quality, while also reducing the difficulty and error of manual adjustment.

[0025] Furthermore, the end face of the adjustment plate 14 has a scale 21, and both sides of the C-shaped frame 3 are provided with indicator arrows 22, and the indicator arrows 22 point to the value corresponding to the scale 21.

[0026] In this embodiment, when adjusting the height of the cutting blade 1, the operator can quickly and accurately adjust the cutting blade 1 to the required position by observing the scale value indicated by the indicator arrow 22, thereby improving the efficiency and accuracy of the adjustment.

[0027] In this utility model, when the height of the cutting blade 1 needs to be adjusted, the lifting mechanism comes into play. The motor 17 drives one of the rotating sleeves 15, and the sprocket 18 on the rotating sleeve 15 drives the other rotating sleeve 15 to rotate through the chain 23. The lifting screw 19 below the rotating sleeve 15 rotates accordingly. Since the lifting screw 19 is threadedly connected to the threaded groove in the adjusting plate 14, the C-shaped frame 3 slides up and down on the two adjusting plates 14, thereby achieving precise adjustment of the height of the cutting blade 1. The end face of the adjusting plate 14 is provided with a scale 21, and the indicator arrows 22 on both sides of the C-shaped frame 3 point to the corresponding values ​​of the scale 21, which makes it convenient for the operator to accurately adjust the position of the cutting blade 1, and finally achieve accurate cutting of the color steel tile.

[0028] In this invention, during cutting, the double-acting cylinder 2 serves as a power source, and the rotating rods 5 on its two output shafts begin to rotate. Since the lower movable rods 6 are hinged to both ends of the rotating rods 5, and the two rotating rods 5 are connected by the connecting rod 7, and the upper movable rod 9, which is hinged below the fixed block 8 at the top of the C-shaped frame 3, is also hinged to the rotating rods 5, the rotation of the rotating rods 5 can drive the upper movable rod 9 and the lower movable rod 6 to move together, thereby driving the cutting blade 1 to perform up-and-down reciprocating motion to achieve the cutting operation.

[0029] The above-disclosed embodiments are merely preferred embodiments of the present utility model and should not be construed as limiting the scope of the present utility model. Those skilled in the art can understand that implementing all or part of the above-described embodiments and making equivalent changes in accordance with the claims of the present utility model are still within the scope of the utility model.

Claims

1. A color steel tile shearing device, characterized in that, The device includes a cutting blade, a double-acting cylinder, a C-shaped frame, and a support plate. Each of the two output shafts of the double-acting cylinder has a rotating rod rotatably mounted on it. Both ends of each rotating rod are hinged to a lower movable rod, and two connecting rods are positioned between the two rotating rods. The inner top of the C-shaped frame has two fixed blocks, and below each fixed block are two upper movable rods hinged. The two upper movable rods are respectively hinged to their corresponding rotating rods and located on the rotating rods. The two lower movable rods are respectively hinged to the cutting blade and located above the cutting blade, which is positioned below the double-acting cylinder. The double-acting cylinder is located below the C-shaped frame, which is positioned above the support plate.

2. The color steel tile shearing equipment as described in claim 1, characterized in that, The inner top of the C-shaped frame is also provided with two vertical rods. One end of each vertical rod is provided with a bottom piece. Both ends of the cutting blade are provided with vertical sleeves, and the vertical sleeves are slidably connected to the corresponding vertical rods and are fitted onto the vertical rods.

3. The color steel tile shearing equipment as described in claim 2, characterized in that, Both ends of the C-shaped frame have adjustment grooves, and both ends of the support plate are provided with adjustment plates. The two adjustment plates are slidably connected to the C-shaped frame and are located in the corresponding adjustment grooves.

4. The color steel tile shearing equipment as described in claim 3, characterized in that, The color steel tile shearing equipment also includes a lifting mechanism, which comprises two rotating sleeves and multiple positioning rods. One of the rotating sleeves is driven by a motor. A sprocket is provided above the rotating sleeve, and a lifting screw is provided below the rotating sleeve. The adjusting plate has a threaded groove and two positioning grooves. The two rotating sleeves are rotatably connected to the C-shaped frame through bearings and are located at both ends of the C-shaped frame. The sprocket between the two rotating sleeves is driven by a chain. The lifting screw extends into the corresponding adjusting groove and is threadedly connected to the corresponding adjusting plate and located in the threaded groove. The multiple positioning rods are fixedly connected to the corresponding adjusting plate and are located in the corresponding adjusting groove, and also extend into the corresponding positioning groove.

5. The color steel tile shearing equipment as described in claim 4, characterized in that, The end face of the adjustment plate has a scale, and both sides of the C-shaped frame are provided with indicator arrows, which point to the values ​​corresponding to the scale.