A garment fabric measuring mechanism
By designing the rotation adjustment component and the adjustment connection component, the difficulty of measuring non-linear and non-standard angular dimensions in existing garment fabric measuring devices has been solved, enabling accurate measurement of garment fabrics and meeting the needs of complex garment styles.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HANGZHOU JIAWEI TECHNOLOGY CO LTD
- Filing Date
- 2025-09-08
- Publication Date
- 2026-06-26
AI Technical Summary
Existing garment fabric measuring devices are difficult to accurately measure dimensions that are not straight or have non-standard angles, such as the length of oblique cuts and curved edges. Furthermore, the position and angle adjustment range of the measuring tools are limited, which affects the measurement accuracy.
It employs a rotation adjustment component and an adjustment connection component, and uses an arc block and annular groove to adjust the position and height of the scale. Combined with a limit fixing component, it ensures that the scale fits tightly against the fabric, adapting to the measurement needs of complex clothing styles.
It enables precise measurement of non-linear and non-standard angles, expands the measurement coverage, avoids reading deviations, and ensures measurement accuracy and ease of operation.
Smart Images

Figure CN224415938U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of clothing fabric measurement technology, specifically a clothing fabric measurement mechanism. Background Technology
[0002] Fabric measuring devices used in garment production and processing refer to devices and equipment used to measure and evaluate fabrics during the garment manufacturing process. They are typically used to measure fabric dimensions to ensure compliance with design specifications and production requirements, and to assist in fabric selection, quality control, and product development during garment production and processing.
[0003] According to application number CN202421981690.9, a garment fabric measuring mechanism is disclosed, belonging to the field of fabric measurement. It includes a worktable and a frame. The worktable is fixedly installed on the top of the frame. Two length measuring plates are fixedly connected to the top of the worktable. The two length measuring plates are symmetrically distributed, and a movable component is arranged between the two length measuring plates. A width measuring component is arranged at the top of the movable component. A smoothing component is arranged at the outer end of the worktable. The smoothing component includes a mounting frame and a connecting frame. The mounting frame is fixedly connected to the worktable. A pressure roller one is rotatably connected to the inner side of the mounting frame, and a pressure roller two is rotatably connected to the inner side of the connecting frame. The gap between the pressure roller one and the pressure roller two is adjustable. The fabric is passed between the pressure roller one and the pressure roller two.
[0004] The fabric measuring mechanism in the above case can only measure the length and width of the fabric. It is difficult to accurately measure some non-straight or non-standard angle dimensions, such as the dimensions required for oblique cutting and the length of curved edges. It cannot meet the measurement needs of complex garment styles. The position, height and angle of the measuring tool are often fixed or have a limited range of adjustment, making it difficult to flexibly adjust according to the placement of the fabric and the measurement needs. This results in gaps or angular deviations between the ruler and the fabric during measurement, affecting the measurement accuracy. Therefore, we provide a garment fabric measuring mechanism. Utility Model Content
[0005] The purpose of this invention is to provide a garment fabric measuring mechanism to solve the problems mentioned in the background art.
[0006] To achieve the above objectives, this utility model provides the following technical solution: a garment fabric measuring mechanism, including a worktable, a scale being provided above the worktable, a rotation adjustment component being provided on the worktable, the rotation adjustment component being used to adjust the orientation of the scale during use, and to adjust the height of the scale during use so that it can be in close contact with the fabric during measurement, the rotation adjustment component being provided with an adjustment connecting component, the adjustment connecting component being used to adjust the lateral position of the scale, and to connect with the scale, the rotation adjustment component being provided with a limit fixing component, the limit fixing component being used to limit the position of the adjustment connecting component.
[0007] Preferably, the rotation adjustment assembly includes an arc-shaped block and an annular groove. There are two arc-shaped blocks, which are respectively arranged on the left and right sides of the worktable. The annular groove is formed on the surface of the worktable. The two arc-shaped blocks are fixedly connected to each other and located inside the annular groove by an annular plate that rotates in contact with the inner wall of the annular groove.
[0008] Preferably, the top of the arc-shaped block is provided with a connecting groove, the interior of the connecting groove is provided with a movable block, the top of the movable block is installed with a connecting block, and the top of the connecting block passes through the connecting groove and extends to its exterior.
[0009] Preferably, the adjusting connection assembly includes a horizontal block, which is installed on top of two connecting blocks. A groove is provided on the top of the horizontal block, and the left and right sides of the inner wall of the groove are fixedly connected by a sliding rod. A slider is slidably connected to the surface of the sliding rod.
[0010] Preferably, a pull block is installed on the top of the slider, and an installation block is installed on the bottom of the slider via a fixing block, with the bottom of the installation block connected to the top of the scale.
[0011] Preferably, the limiting and fixing component includes two stabilizing blocks, which are respectively installed on the top of two arc-shaped blocks. A first magnet is installed on the stabilizing block, and an iron block that attracts the first magnet is installed on the top of the horizontal block at the position corresponding to the first magnet.
[0012] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0013] 1. This utility model utilizes the rotation of the annular plate of the rotating adjustment component within the annular groove. This allows the scale to be flexibly adjusted around the center of the worktable, enabling the measurement of fabric dimensions that are not straight or have non-standard angles, such as oblique or curved edges. This overcomes the limitations of traditional mechanisms that can only measure length and width, and is suitable for measuring complex clothing styles. The slider in the adjusting connection component slides along the slide rod, which can drive the scale to move laterally. Combined with the rotation adjustment, it can be accurately positioned to any area of the fabric to be measured, further expanding the measurement coverage. The movable block in the rotating adjustment component moves within the connecting groove, which can drive the connecting block and the scale above it to rise and fall, ensuring that the scale can closely fit the fabric surface during measurement and avoiding reading deviations caused by gaps.
[0014] 2. This utility model, by setting a limiting and fixing component, limits the height and position of the adjusting connecting component and the scale, thus avoiding affecting the operation of picking up and putting down the fabric on the worktable. Attached Figure Description
[0015] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0016] Figure 2 This is a three-dimensional structural cross-sectional view of the present invention;
[0017] Figure 3 This is a three-dimensional structural diagram of the adjustable connecting component of this utility model;
[0018] Figure 4 This is a three-dimensional structural diagram of the workbench, arc-shaped block, annular groove, and annular plate of this utility model.
[0019] In the diagram: 1. Workbench; 100. Scale; 2. Rotation adjustment assembly; 21. Arc block; 22. Annular groove; 23. Annular plate; 24. Connecting groove; 25. Movable block; 26. Connecting block; 3. Adjustment connection assembly; 31. Horizontal block; 32. Slide groove; 33. Slide rod; 34. Sliding block; 35. Pull block; 36. Fixing block; 37. Mounting block; 4. Limiting and fixing assembly; 41. Stabilizing block; 42. First magnet; 43. Iron block; 5. Anti-slip pad; 6. Iron plate; 7. Second magnet. Detailed Implementation
[0020] 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.
[0021] Please see Figure 1-4A garment fabric measuring mechanism includes a worktable 1, which is cylindrical in shape and made of aluminum alloy. A scale 100 is mounted on the top of the worktable 1, directly used to read fabric size data and serving as the core measuring tool. The scale 100 has graduations on its side. An anti-slip pad 5 is glued to the bottom of the worktable 1, increasing friction when placed on a table or other surface, thus improving stability. An iron plate 6, made of cold-rolled steel, is welded to the top of the worktable 1. The iron plate 6 has a smooth, flat surface, good magnetism, and is rust-resistant. A second magnet 7 is attached to each of the four corners of the top of the iron plate 6, attracting it to the surface. This allows the second magnet 7 to fix the fabric to the iron plate 6, ensuring stability during measurement. The fixing method is simple and quick, does not damage the fabric, and its position can be adjusted according to fabric size to accommodate different fabric sizes. The second magnet 7 is made of neodymium iron boron magnet.
[0022] The workbench 1 is equipped with a rotation adjustment assembly 2, which is used to adjust the orientation of the scale 100 during use and to adjust the height of the scale 100 so that it can fit snugly against the fabric during measurement. The rotation adjustment assembly 2 includes two arc-shaped blocks 21 and an annular groove 22. There are two arc-shaped blocks 21, which are respectively located on the left and right sides of the workbench 1. The side of the arc-shaped block 21 closest to the workbench 1 makes rotational contact with the surface of the workbench 1. The arc-shaped design of the arc-shaped block 21 adapts to the rotation trajectory of the workbench 1 to ensure stability during rotation. The annular groove 22 is formed on the surface of the workbench 1. The two arc-shaped blocks 21 are located inside the annular groove 22 and are fixedly connected by an annular plate 23 that makes rotational contact with the inner wall of the annular groove 22. The surface of the annular plate 23 and the inner wall of the annular groove 22 are smooth, so there will be no jamming during rotation. Both the arc-shaped blocks 21 and the annular plate 23 are made of aluminum alloy. The annular plate 23 is welded to the surface of the workbench 1. The arc-shaped blocks 21 are fixedly connected, and the annular plate 23 connects the two arc-shaped blocks 21 and rotates within the annular groove 22, driving the arc-shaped blocks 21 and the upper components to rotate as a whole, thereby realizing the orientation adjustment of the scale 100 and ensuring that the arc-shaped blocks 21 on both sides rotate synchronously to avoid adjustment jamming. The top of the arc-shaped blocks 21 is provided with a connecting groove 24, and a movable block 25 is provided inside the connecting groove 24. The surface of the movable block 25 slides in contact with the inner wall of the connecting groove 24. The top dimension of the connecting groove 24 is smaller than the bottom dimension, so as to effectively limit the movable block 25 from being pulled out of the connecting groove 24 and guide the movable block 25 to move stably, ensuring the straightness of the height adjustment of the scale 100. A connecting block 26 is installed on the top of the movable block 25. The top of the connecting block 26 passes through the connecting groove 24 and extends to its outside. The movable block 25 is fixedly connected to the connecting block 26 by welding. Both the movable block 25 and the connecting block 26 are made of aluminum alloy.
[0023] The rotation adjustment assembly 2 is equipped with an adjustment connection assembly 3. The adjustment connection assembly 3 is used to adjust the lateral position of the scale 100 and to connect with the scale 100. The adjustment connection assembly 3 includes a horizontal block 31, which is installed on the top of two connecting blocks 26. The horizontal block 31 is fixedly connected to the connecting blocks 26 by welding. The horizontal block 31 is made of aluminum alloy. A groove 32 is opened on the top of the horizontal block 31. The left and right sides of the inner wall of the groove 32 are fixedly connected by a sliding rod 33. A slider 34 is slidably connected to the surface of the sliding rod 33. The surface of the slider 34 slides in contact with the inner wall of the groove 32. Through the sliding contact between the slider 34 and the inner wall of the groove 32, the stability of the slider 34 during lateral movement is ensured. The groove 32 provides a lateral sliding track for the slider 34 and restricts the slider. The movement direction of slider 34 is horizontal. Sliding rod 33 provides sliding support for slider 34, further restricting the movement trajectory of slider 34. Pull block 35 is installed on the top of slider 34. Pull block 35 is fixedly connected to slider 34 by welding, providing the operator with a force point to manually pull slider 34. Mounting block 37 is installed on the bottom of slider 34 by fixing block 36. The two ends of fixing block 36 are fixedly connected to slider 34 and mounting block 37 by welding respectively. The bottom of mounting block 37 is connected to the top of scale 100. Mounting block 37 is fixedly connected to scale 100 by adhesive, which prevents scale 100 from loosening during measurement and can be adapted to scale 100 of different specifications. Mounting block 37 is made of aluminum alloy.
[0024] A limit fixing component 4 is provided on the rotation adjustment component 2. The limit fixing component 4 is used to limit the position of the adjustment connection component 3. The limit fixing component 4 includes two stabilizing blocks 41, which are respectively installed on the top of the two arc-shaped blocks 21. The stabilizing blocks 41 are made of aluminum alloy and are fixedly connected to the arc-shaped blocks 21 by welding. A first magnet 42 is installed on the stabilizing block 41 and is fixedly connected to the stabilizing block 41 by adhesive. The first magnet 42 is a neodymium iron boron strong magnet with strong magnetic force and good fixing effect. The device is small in size. At the top of the horizontal block 31, corresponding to the position of the first magnet 42, an iron block 43 is installed that attracts the first magnet 42. The iron block 43 is made of low carbon steel. The first magnet 42 and the iron block 43 attract each other and generate magnetic force to fix the horizontal block 31 to the stabilizing block 41, thereby realizing the position limit of the adjustment connecting component 3. When the scale 100 is not in use, the position of the scale 100 is limited by the attraction between the first magnet 42 and the iron block 43. When the scale 100 is in use, the first magnet 42 and the iron block 43 are separated.
[0025] When using, lay the garment fabric to be measured flat on the iron plate 6 at the top of the workbench 1, adjust the position of the fabric to make it flat and wrinkle-free, and press the second magnets 7 at the four corners of the iron plate 6 onto the edge of the fabric according to the fabric size, and use the attraction force between the second magnets 7 and the iron plate 6 to fix the fabric and prevent the fabric from shifting during the measurement process.
[0026] If you need to measure the oblique dimension or the length of the curved edge of the fabric, push the curved block 21 so that it drives the ring plate 23 to rotate in the ring groove 22. The rotation of the ring plate 23 will synchronously drive the upper adjustment connection component 3 and the scale 100 to rotate around the center of the worktable 1 until the angle of the scale 100 is consistent with the direction to be measured. Release the curved block 21 to maintain the current orientation.
[0027] Then push the horizontal block 31 downwards. The horizontal block 31 drives the movable block 25 to slide in the connecting groove 24 of the arc block 21 through the connecting block 26, thereby adjusting the height of the scale 100. When the bottom of the scale 100 is in close contact with the fabric surface, stop moving. At this time, the first magnet 42 separates from the iron block 43. Hold the pull block 35 and pull the slider 34 horizontally along the sliding groove 32 at the top of the horizontal block 31. The slider 34 slides along the sliding rod 33, and drives the scale 100 to move horizontally through the fixed block 36 and the mounting block 37 until the zero mark of the scale 100 is aligned with the measurement starting point of the fabric. After confirming that the angle, height and horizontal position of the scale 100 are all adjusted in place, directly read the scale value corresponding to the other end of the fabric, which is the measurement size.
[0028] 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 garment fabric measuring mechanism, characterized in that: The device includes a workbench (1), a scale (100) is provided above the workbench (1), a rotation adjustment component (2) is provided on the workbench (1), the rotation adjustment component (2) is used to adjust the orientation of the scale (100) when in use, and to adjust the height of the scale (100) when in use so that it can be close to the fabric when measuring, an adjustment connection component (3) is provided on the rotation adjustment component (2), the adjustment connection component (3) is used to adjust the horizontal position of the scale (100) and to connect with the scale (100), a limit fixing component (4) is provided on the rotation adjustment component (2), the limit fixing component (4) is used to limit the position of the adjustment connection component (3).
2. The garment fabric measuring mechanism according to claim 1, characterized in that: The rotation adjustment assembly (2) includes an arc block (21) and an annular groove (22). There are two arc blocks (21) and they are respectively arranged on the left and right sides of the workbench (1). The annular groove (22) is opened on the surface of the workbench (1). The two arc blocks (21) are fixedly connected to each other and located inside the annular groove (22) by an annular plate (23) that rotates in contact with the inner wall of the annular groove (22).
3. The garment fabric measuring mechanism according to claim 2, characterized in that: The top of the arc-shaped block (21) is provided with a connecting groove (24), and a movable block (25) is provided inside the connecting groove (24). A connecting block (26) is installed on the top of the movable block (25), and the top of the connecting block (26) passes through the connecting groove (24) and extends to its outside.
4. The garment fabric measuring mechanism according to claim 3, characterized in that: The adjusting connection assembly (3) includes a horizontal block (31), which is installed on the top of two connecting blocks (26). A groove (32) is provided on the top of the horizontal block (31). The left and right sides of the inner wall of the groove (32) are fixedly connected by a sliding rod (33). A slider (34) is slidably connected to the surface of the sliding rod (33).
5. The garment fabric measuring mechanism according to claim 4, characterized in that: The top of the slider (34) is fitted with a pull block (35), and the bottom of the slider (34) is fitted with a mounting block (37) via a fixing block (36). The bottom of the mounting block (37) is connected to the top of the scale (100).
6. The garment fabric measuring mechanism according to claim 5, characterized in that: The limiting and fixing component (4) includes a stabilizing block (41), there are two stabilizing blocks (41) and they are respectively installed on the top of two arc-shaped blocks (21). A first magnet (42) is installed on the stabilizing block (41). An iron block (43) that attracts the first magnet (42) is installed on the top of the horizontal block (31) at the position corresponding to the first magnet (42).