Portable goldwork embroidery image electronic template generator

By using the adjustment and movement components of the portable gold embroidery image electronic template generator, synchronous scanning of both sides of the gold embroidery product is achieved, solving the problem of inconsistent scanning in existing technologies, improving scanning efficiency and accuracy, and adapting to the diverse needs of different products.

CN224343252UActive Publication Date: 2026-06-09SHENZHEN CHUANDAIJIN CULTURE CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN CHUANDAIJIN CULTURE CO LTD
Filing Date
2025-06-16
Publication Date
2026-06-09

Smart Images

  • Figure CN224343252U_ABST
    Figure CN224343252U_ABST
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Abstract

The application provides a portable golden embroidery image electronic template generator. A user can change the scanning angle of a first scanning head by releasing or clamping an adjusting assembly, so that the scanning head is perpendicular to or appropriately inclined to an embroidery pattern, and an optimal image acquisition angle is obtained. Similarly, the angle of a second scanning head can be adjusted by adjusting a movable assembly, so that the second scanning head is aligned with the pattern on the other side of the product. Through the double-sided adjustable setting, the portable golden embroidery image electronic template generator can simultaneously acquire the front and back patterns of a golden embroidery product in one scanning, improves the efficiency and ensures the position correspondence consistency. The synchronous scanning of the double-sided patterns is realized through the adjustable angle, and the repeated operation and data error caused by the traditional single-sided scanning are avoided. Through the relative arrangement and fine angle adjustment of the first and second scanning heads, the image acquisition of the scanning area can keep a consistent reference datum, which is helpful for subsequent image splicing, registration and identification of the electronic template.
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Description

Technical Field

[0001] This application relates to the field of gold processing, and more particularly to a portable electronic template generator for gold embroidery images. Background Technology

[0002] Gold embroidery refers to the technique of embroidering on fabric using gold thread (or metallic thread, such as gold foil thread or gilded silver thread). These metallic threads are often made by wrapping metal around silk threads or by using extremely fine metal strips to create gorgeous, shimmering patterns to form the product.

[0003] Once the gold embroidery product is completed, its pattern needs to be captured so that it can be used to generate an electronic template or be displayed online. Currently, this is done by photographing the pattern for online viewing. However, this method cannot generate an electronic template, making it inconvenient for later mass production.

[0004] The current practice is to obtain an electronic template of the gold embroidery product by scanning the gold embroidery. However, this scanning method is often based on scanning only one side, while gold embroidery products are not only displayed on one side. For example, gold embroidery fans have patterns on both sides, which makes the production data different. If only one side is scanned, multiple scans are required to establish reference points and thus unify the data of the entire gold embroidery product.

[0005] Secondly, if the scanning speed is different each time, the position of the reference point will also be different, making it difficult to form an electronic template later. Utility Model Content

[0006] In view of this, it is necessary to provide a portable electronic template generator for gold embroidery images to solve the above problems.

[0007] Embodiments of this application provide a portable electronic template generator for gold embroidery images, comprising:

[0008] main body;

[0009] An adjustment component is installed on one side of the main body and is rotatably connected to the main body.

[0010] The first scanning head is mounted on the side of the adjustment assembly away from the main body;

[0011] An active component, one end of which is mounted on the other side of the main body;

[0012] The second scanning head is installed on the side of the movable component away from the main body. A scanning area is formed between the first scanning head and the second scanning head. The movable component is adjusted to adjust the second scanning angle of the second scanning head. The adjusting component is released or clamped to change the first scanning angle of the first scanning head.

[0013] In at least one embodiment of this application, the regulating component includes:

[0014] The first clamping member has a first clamping groove, and the first scanning head is partially housed in the first clamping groove and rotatably connected to the first clamping member;

[0015] A first locking member is threadedly connected to the first clamping member to release or lock the first clamping member.

[0016] In at least one embodiment of this application, the first clamping member includes two opposing first clamping portions and a second clamping portion, and a first clamping groove is formed between the first clamping portion and the second clamping portion;

[0017] The first scanning head includes a first scanning section and a first ball head connected to the first scanning section, the first ball head extending into the first clamping groove.

[0018] In at least one embodiment of this application, the first clamping member further includes a first arcuate portion, which is disposed in the first clamping groove and fits against the first ball head.

[0019] In at least one embodiment of this application, the main body is provided with a plurality of light source slots, a first fixing position is formed on the main body, one end of the adjustment component is fixed to the first fixing position, and the plurality of light source slots are arranged at equal angles with the first fixing position as the center.

[0020] The portable gold embroidery image electronic template generator also includes:

[0021] A light-emitting element is disposed within the main body, and the light emitted by the light-emitting element passes through multiple light source slots to illuminate the scanning area.

[0022] In at least one embodiment of this application, the main body is further provided with an exhaust duct communicating with the light source slot, and the opening direction of the exhaust duct is perpendicular to the opening direction of the light source slot.

[0023] The portable gold embroidery image electronic template generator also includes:

[0024] An exhaust fan is located inside the main body and communicates with the exhaust duct to draw in dust from the scanning area and blow it out through the exhaust duct.

[0025] In at least one embodiment of this application, the active component includes:

[0026] The second clamping member has a second clamping groove, and the second scanning head is partially housed in the second clamping groove and rotatably connected to the second clamping member;

[0027] The second locking member is threadedly connected to the second clamping member and is used to adjust the opening size of the second clamping groove;

[0028] The rotating component is fixed at one end to the main body and rotatably connected to the second clamping member at the other end.

[0029] In at least one embodiment of this application, the second clamping member includes a third clamping portion and a fourth clamping portion disposed opposite to each other, and a second clamping groove is formed between the third clamping portion and the fourth clamping portion;

[0030] The second scanning head includes a second scanning section and a second ball head connected to the second scanning section, the second ball head portion being housed within the second clamping groove.

[0031] In at least one embodiment of this application, the rotating component includes:

[0032] The rotating head has one end fixedly connected to the second clamping member and the other end has a rotating groove.

[0033] The telescopic component has one end fixed to the main body and the other end provided with a shaft portion, which is received in the rotating groove and rotatably connected to the rotating head;

[0034] The third locking member has one end abutting against the rotating head, and the other end extending through the rotating head into the rotating groove and abutting against the shaft. The third locking member is used to release or lock the rotating head.

[0035] In at least one embodiment of this application, the telescopic component includes:

[0036] A fixing rod, one end of which is fixed to the main body;

[0037] The telescopic rod has a shaft at one end and a telescopic groove at the other end, and the fixed rod is housed in the telescopic groove.

[0038] The fourth locking element has one end abutting against the telescopic rod, and the other end extending through the telescopic rod into the telescopic groove and abutting against the fixed rod. The fourth locking element is used to release or lock the telescopic rod.

[0039] The portable gold embroidery image electronic template generator of this embodiment will have at least the following beneficial effects:

[0040] The portable gold embroidery image electronic template generator described above allows users to change the scanning angle of the first scanning head by releasing or clamping the adjustment component, keeping it perpendicular to or appropriately tilted to the embroidery pattern to obtain the optimal image acquisition angle. Similarly, by adjusting the movable component, the angle of the second scanning head can be adjusted to ensure that it is aligned with the pattern on the other side of the product. With this dual-sided adjustable setting, the portable gold embroidery image electronic template generator can simultaneously acquire the patterns on both sides of the gold embroidery product in the same scan, improving efficiency and ensuring consistent positional correspondence.

[0041] By using an adjustable angle, simultaneous scanning of double-sided patterns can be achieved, avoiding the repetitive operations and data errors caused by traditional single-sided scanning.

[0042] Both the adjustment and moving components support angle adjustment, allowing for flexible settings based on the thickness, shape, or pattern position of different gold embroidery products. This enhances adaptability, versatility, and accuracy.

[0043] By adjusting the relative arrangement and fine angle of the first and second scanning heads, the image acquisition of the scanning area can maintain a consistent reference standard, which helps with subsequent image stitching, registration and recognition of electronic templates. Attached Figure Description

[0044] Figure 1 A structural diagram of a portable electronic template generator for gold embroidery images;

[0045] Figure 2 An exploded view of a portable electronic template generator for gold embroidery images.

[0046] Explanation of main component symbols

[0047] 100. Portable electronic template generator for gold embroidery images;

[0048] 110. Main body; 110a. Light source slot; 110b. First fixing position; 110c. Discharge slot;

[0049] 120. Adjustment assembly; 121. First clamping member; 1211. First clamping part; 1212. Second clamping part; 1213. First arc-shaped part; 121a. First clamping groove; 122. First locking member;

[0050] 130. First scanning head; 131. First scanning section; 132. First spherical head;

[0051] 140. Movable component; 141. Second clamping member; 1411. Third clamping part; 1412. Fourth clamping part; 141a. Second clamping groove; 142. Second locking member; 1431. Rotating head; 1431a. Rotating groove; 1441. Shaft part; 145. Third locking member; 1442. Fixed rod; 1443. Telescopic rod; 1445. Fourth locking member;

[0052] 150. Second scanning head; 150a. Scanning area; 151. Second spherical head; 152. Second scanning section;

[0053] 160. Illuminating components;

[0054] 170. Ventilation components. Detailed Implementation

[0055] The embodiments of this application will now be described with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments.

[0056] It should be noted that when a component is considered to be "connected" to another component, it can be directly connected to the other component or may also have an intervening component. When a component is considered to be "placed" on another component, it can be directly placed on the other component or may also have an intervening component. The terms "top," "bottom," "upper," "lower," "left," "right," "front," "back," and similar expressions used in this article are for illustrative purposes only.

[0057] The following detailed description of some embodiments of this application is provided in conjunction with the accompanying drawings. Unless otherwise specified, the following embodiments and features can be combined with each other.

[0058] Embodiments of this application provide a portable gold embroidery image electronic template generator 100, comprising:

[0059] Main body 110;

[0060] Adjustment component 120 is installed on one side of the main body 110 and is rotatably connected to the main body 110.

[0061] The first scanning head 130 is installed on the side of the adjustment assembly 120 away from the main body 110;

[0062] The active component 140 is mounted at one end on the other side of the main body 110;

[0063] The second scanning head 150 is installed on the side of the movable component 140 away from the main body 110. A scanning area 150a is formed between the first scanning head 130 and the second scanning head 150. The movable component 140 is adjusted to adjust the second scanning angle of the second scanning head 150. The adjusting component 120 is released or clamped to change the first scanning angle of the first scanning head 130.

[0064] In this embodiment, the user can change the scanning angle of the first scanning head 130 by releasing or clamping the adjustment component 120, so that it is perpendicular to or appropriately tilted with the embroidery pattern to obtain the optimal image acquisition angle. Similarly, by adjusting the movable component 140, the angle of the second scanning head 150 can be adjusted to ensure that it is aligned with the pattern on the other side of the product. With this dual-sided adjustable setting, the portable gold embroidery image electronic template generator 100 can simultaneously acquire the patterns on both sides of the gold embroidery product in the same scan, improving efficiency and ensuring consistent positional correspondence.

[0065] By using an adjustable angle, simultaneous scanning of double-sided patterns can be achieved, avoiding the repetitive operations and data errors caused by traditional single-sided scanning.

[0066] Both the adjustment component 120 and the movable component 140 support angle adjustment, which can be flexibly set according to the thickness, shape or pattern position of different gold embroidery products, making them highly adaptable and improving their versatility and accuracy.

[0067] By adjusting the relative arrangement and fine angle of the first and second scanning heads 150, the image acquisition in the scanning area 150a can maintain a consistent reference standard, which helps with subsequent image stitching, registration and recognition of electronic templates.

[0068] It should be noted that the main body 110 is roughly a rectangular shell, and electronic components are installed inside to receive images and generate electronic templates.

[0069] It should be further noted that, due to the small size of this portable gold embroidery image electronic template generator 100, it is easy to carry during use. By adjusting the movable component and the adjustment component, the portable gold embroidery image electronic template generator can be folded, making it easy to carry and use.

[0070] In at least one embodiment of this application, the adjustment component 120 includes:

[0071] The first clamping member 121 has a first clamping groove 121a, and the first scanning head 130 is partially housed in the first clamping groove 121a and is rotatably connected to the first clamping member 121.

[0072] The first locking member 122 is threadedly connected to the first clamping member 121 to release or lock the first clamping member 121.

[0073] In this embodiment, the operator manually adjusts the angle of the first scanning head 130 according to the specific structure and placement of the gold embroidery product. Since the first scanning head 130 is rotatably connected to the first clamping member 121, its position can rotate freely relative to the first clamping member 121. The angle adjustment process is flexible and convenient. After adjusting to a suitable angle, the first clamping member 121 clamps the first scanning head 130 by tightening the first locking member 122, thus firmly fixing the first scanning head 130 in the current position. If further adjustment is required, simply loosen the first locking member 122 to unlock the first clamping member 121 and reposition it.

[0074] The first clamping groove 121a is formed inside the first clamping member 121. It is a groove for accommodating a specific part of the first scanning head 130 (such as the first ball head 132). The first locking member 122 is installed on the first clamping member 121 by means of a threaded connection. It is used to fix the position of the clamping member after adjustment. In this embodiment, it can be a bolt.

[0075] The first scanning head 130 can be flexibly adjusted in multiple directions and angles, which helps to make the first scanning head 130 perpendicular to the embroidery surface or to achieve the best shooting angle, thereby ensuring the clarity and integrity of the acquired image.

[0076] The first locking member 122 achieves threaded locking of the first clamping member 121, which has good mechanical stability and can effectively prevent the scanning head from shifting due to vibration, contact or gravity during the scanning process, thus ensuring the accuracy and consistency of image acquisition.

[0077] In at least one embodiment of this application, the first clamping member 121 includes two opposing first clamping portions 1211 and second clamping portions 1212, and a first clamping groove 121a is formed between the first clamping portions 1211 and the second clamping portions 1212.

[0078] The first scanning head 130 includes a first scanning part 131 and a first ball head 132 connected to the first scanning part 131, wherein the first ball head 132 extends into the first clamping groove 121a.

[0079] In this embodiment, the operator inserts the first scanning head 130 into the first clamping member 121, so that its first ball head 132 is embedded in the first clamping groove 121a. In the unlocked state, the first ball head 132 can rotate in the first clamping groove 121a, so that the first scanning part 131 can be adjusted in multiple directions. After adjusting to a suitable scanning angle, the first clamping part 1211 and the second clamping part 1212 can be clamped by the first locking member 122, so that the first ball head 132 is fixed in the first clamping groove 121a, thereby locking the angle of the first scanning head 130. If the angle needs to be adjusted later, the first locking member 122 can be released and the above steps can be repeated.

[0080] The first ball head 132 itself has a natural multi-axis rotation capability. When combined with the first clamping groove 121a to form a spherical contact, it can realize the flexible adjustment of the first scanning head 130 in multiple angles such as horizontal and vertical directions, adapting to gold embroidery products of different thicknesses and curvatures.

[0081] By clamping the first ball head 132 between the first clamping part 1211 and the second clamping part 1212, the first scanning head 130 can be quickly positioned and prevented from shaking after adjustment by a simple clamping action. The mechanical structure is simple but the effect is stable.

[0082] Flexible adjustment allows the first scanning head 130 to be as perpendicular as possible to the surface of the gold embroidery pattern for taking pictures, avoiding image distortion caused by angle deviation, ensuring the consistency and accuracy of the data in the scanning area 150a, which is beneficial for the subsequent generation and processing of electronic templates.

[0083] It should be noted that the first clamping part 1211 and the second clamping part 1212 are two arc-shaped plates arranged opposite each other and bent outwards. The first scanning part 131 is a scanning camera, and the first ball head 132 is approximately spherical.

[0084] In at least one embodiment of this application, the first clamping member 121 further includes a first arcuate portion 1213, which is disposed in the first clamping groove 121a and fits against the first ball head 132.

[0085] In this embodiment, the first arc-shaped part 1213 is disposed on the inner wall of the clamping groove, facing the interior of the first clamping groove 121a. The first arc-shaped part 1213 is provided with an arc-shaped groove, and its surface shape is a spherical arc-shaped structure that matches the ball head. In actual use, the first ball head 132 will fit against the arc surface of the first arc-shaped part 1213.

[0086] In the unlocked state, the first ball head 132 can slide and rotate in multiple directions along the first arc-shaped portion 1213, supporting wide-angle adjustment of the first scanning head 130. After adjustment, tighten the first locking member 122, and the first clamping member 121 tightens on both sides, so that the first arc-shaped portion 1213 fits and presses the first ball head 132, thereby completing the positioning and fixing. If readjustment is required, simply loosen the first locking member 122, and the first ball head 132 and the first arc-shaped portion 1213 will return to the movable state.

[0087] The first arc-shaped portion 1213 provides arc-shaped support that closely matches the shape of the first ball head 132, greatly enhancing the tightness of the fit and reducing the risk of slippage and loosening.

[0088] When not locked, the first ball head 132 slides more smoothly along the surface of the first arc-shaped part 1213, making operation smoother and less prone to jamming, facilitating fine adjustment of the scanning angle and improving the user's operating experience.

[0089] Since the first ball head 132 and the first arc-shaped part 1213 are in surface contact (rather than point or line contact), the contact area is large after fixing, the force is uniform, and the anti-shaking ability is strong. In actual scanning, it can better maintain the stability and continuity of the image, which helps to generate high-quality electronic template images.

[0090] The presence of the first arc-shaped portion 1213 distributes the clamping stress evenly in the spherical contact area, reducing wear or deformation of the first clamping member 121 caused by uneven stress, and improving the reliability and durability of the first clamping member 121.

[0091] In at least one embodiment of this application, the main body 110 is provided with a plurality of light source slots 110a, a first fixing position 110b is formed on the main body 110, one end of the adjustment component 120 is fixed to the first fixing position 110b, and the plurality of light source slots 110a are arranged at equal angles with the first fixing position 110b as the center.

[0092] The portable gold embroidery image electronic template generator 100 also includes:

[0093] A light-emitting element 160 is disposed within the main body 110, and the light from the light-emitting element 160 passes through the plurality of light source slots 110a to illuminate the scanning area 150a.

[0094] In this embodiment, the user activates the portable gold embroidery image electronic template generator 100, the light-emitting component 160 is lit, and light shines outward from inside the main body 110. The light passes through multiple light source slots 110a set at equal angles and shines on the surface of the gold embroidery product from different directions. The embroidery product is located in the scanning area 150a between the first and second scanning heads 150 and receives uniform illumination. The scanning head performs image acquisition under good lighting conditions, and the acquired image is used for subsequent electronic template generation and display.

[0095] The use of metallic threads on the surface of gold embroidery can easily cause image interference such as reflections and bright spots. By illuminating the surface with light sources from multiple angles and evenly distributed, shadows are effectively eliminated, bright areas are reduced, and the consistency and recognizability of the scanned image are improved.

[0096] The light source slots 110a are arranged at equal angles to ensure that all parts within the scanning area 150a receive appropriate illumination. This is especially beneficial when the embroidery pattern is complex and has varying heights, as it prevents certain areas from being too bright or too dark, thus facilitating the unified processing of subsequent image algorithms.

[0097] Since the light source slot 110a is centered on the first fixed position 110b, the fixed point of the adjustment component 120 will not block the light path, thus avoiding the structural components from affecting the illumination and maintaining the illumination integrity of the scanning area 150a.

[0098] It should be noted that the light source slot 110a is a through slot, and the light-emitting element 160 is roughly an LED light.

[0099] In at least one embodiment of this application, the main body 110 is further provided with an exhaust trough communicating with the light source slot 110a, and the opening direction of the exhaust trough is perpendicular to the opening direction of the light source slot 110a.

[0100] The portable gold embroidery image electronic template generator 100 also includes:

[0101] The exhaust fan 170 is located inside the main body 110 and communicates with the exhaust duct to draw in the dust in the scanning area 150a and blow it out through the exhaust duct.

[0102] In this embodiment, when the portable gold embroidery image electronic template generator 100 is activated, the exhaust fan 170 starts operating, forming a directional airflow. While the scanning area 150a is being illuminated and scanned, air flows through the light source slot 110a and the exhaust channel, causing the micro-dust suspended on or around the embroidery surface to move towards the exhaust channel. The dust is sucked into the exhaust channel and then discharged outside the main body 110 by the exhaust fan 170, preventing it from remaining in the scanning area 150a. The entire process maintains the cleanliness of the scanning area 150a without affecting image acquisition.

[0103] Gold embroidery often contains metal particles, gold thread fragments, or fabric fibers. If these tiny impurities cover the surface of the pattern, they can easily cause image noise, blurring, or uneven brightness. The Portable Gold Embroidery Image Electronic Template Generator 100 uses active ventilation to remove dust before or during scanning, improving image clarity and recognition accuracy.

[0104] The exhaust duct is set to be perpendicular to the light source slot 110a, so that the light and air flow paths do not coincide, thus preventing light instability or light and shadow deviation caused by airflow disturbance and ensuring image consistency.

[0105] It should be noted that the exhaust duct is a through duct, and the exhaust component 170 is a fan.

[0106] In at least one embodiment of this application, the active component 140 includes:

[0107] The second clamping member 141 has a second clamping groove 141a, and the second scanning head 150 is partially housed in the second clamping groove 141a and rotatably connected to the second clamping member 141.

[0108] The second locking member 142 is threadedly connected to the second clamping member 141 and is used to adjust the opening size of the second clamping groove 141a;

[0109] The rotating component is fixed at one end to the main body 110 and rotatably connected to the second clamping member 141 at the other end.

[0110] In this embodiment, the user manually adjusts the position and angle of the second scanning head 150 according to the size and shape of the gold embroidery product. The adjustment includes twisting the second clamping member 141 to rotate it around the rotating assembly; loosening the second locking member 142 to open the second clamping groove 141a; repositioning the angle of the second scanning head 150; and after adjusting to the target position, tightening the second locking member 142 to fix the second scanning head 150 in place. The first scanning head 130 and the second scanning head 150 are positioned opposite each other, forming a stable scanning area 150a, which can simultaneously acquire images of the front and back of the embroidery pattern. This allows the second scanning head 150 to flexibly adapt to gold embroidery products of different shapes or curvatures. Compared to a fixed structure, this offers greater flexibility and accuracy.

[0111] The second locking member 142 clamps the second clamping groove 141a, which can effectively prevent the scanning head from shifting due to vibration or gravity during the scanning process, and ensure the image acquisition accuracy and image registration consistency.

[0112] In at least one embodiment of this application, the second clamping member 141 includes a third clamping portion 1411 and a fourth clamping portion 1412 disposed opposite to each other, and a second clamping groove 141a is formed between the third clamping portion 1411 and the fourth clamping portion 1412.

[0113] The second scanning head 150 includes a second scanning section 152 and a second ball head 151 connected to the second scanning section 152, wherein the second ball head 151 is partially housed in the second clamping groove 141a.

[0114] In this embodiment, the operator inserts the second ball head 151 of the second scanning head 150 into the second clamping groove 141a (formed by the third and fourth clamping parts 1412). In the unlocked state, the second ball head 151 can rotate freely relative to the second clamping member 141 within the second clamping groove 141a. The operator manually adjusts the angle of the second scanning part 152 according to the structure of the scanning area 150a or the shape of the embroidery product. After adjustment, the operator uses the second locking member 142 to clamp the third clamping part 1411 and the fourth clamping part 1412 on both sides of the second clamping groove 141a, so that the second ball head 151 is fixed at the target angle. At this time, the second scanning head 150 and the first scanning head 130 are arranged opposite each other on both sides of the scanning area 150a, and the preparation for double-sided scanning is completed.

[0115] It should be noted that the third clamping part 1411 has the same shape as the first clamping part 1211, the fourth clamping part 1412 has the same shape as the second clamping part 1212, and the second ball head 151 has the same shape as the first ball head 132.

[0116] By using the second ball head 151 in conjunction with the second clamping groove 141a, the second scanning head 150 can be rotated and tilted in multiple directions, thereby adapting to embroidery products of different thicknesses, curvatures or three-dimensional structures and improving compatibility.

[0117] The third clamping part 1411 and the fourth clamping part 1412 form a clamping groove, which is not only compact in structure, but also can firmly clamp the second ball head 151 in the locked state, ensuring that the scanning head does not shake or deviate during the scanning process, which helps to maintain the accuracy of image registration.

[0118] Since both the first scanning head 130 and the second scanning head 150 achieve adjustable angles and precise position fixation through the second ball head 151 and the clamping structure, they can achieve highly consistent and symmetrical layout and adjustment, which helps in the synchronous processing, fusion and electronic template generation of subsequent images, and meets the high requirements for scanning alignment.

[0119] In at least one embodiment of this application, the rotating component includes:

[0120] The rotating head 1431 has one end fixedly connected to the second clamping member 141, and the other end is provided with a rotating groove 1431a;

[0121] The telescopic component is fixed at one end to the main body 110 and has a shaft 1441 at the other end. The shaft 1441 is received in the rotating groove 1431a and is rotatably connected to the rotating head 1431.

[0122] The third locking member 145 has one end abutting against the rotating head 1431, and the other end extending through the rotating head 1431 into the rotating groove 1431a and abutting against the shaft portion 1441. The third locking member 145 is used to release or lock the rotating head 1431.

[0123] In this embodiment, the user needs to adjust the position and direction of the second scanning head 150 according to the placement angle or shape characteristics of the gold embroidery product. First, loosen the third locking member 145 so that the rotating head 1431 can rotate around the shaft 1441. Manually rotate the second clamping member 141 to drive the second scanning head 150 to complete the required angle adjustment. After adjusting to the appropriate angle, tighten the third locking member 145 so that the rotating head 1431 and the shaft 1441 are in close contact, completing the angle locking of the second scanning head 150. At this time, the second scanning head 150 maintains a fixed posture and together with the first scanning head 130, accurately scans both sides of the gold embroidery product.

[0124] The rotating assembly enables the second clamping member 141 to rotate as a whole, further expanding the adjustment freedom of the second scanning head 150, allowing it to flexibly adapt to various installation angles and three-dimensional shapes of gold embroidery products. It is particularly suitable for products with complex curved surfaces or irregular planes, such as embroidered fans.

[0125] Through the structural design of the rotating groove 1431a and the shaft 1441, smooth rotation can be achieved when the third locking member 145 is loosened; after tightening, a stable support is formed, and the angle will not be offset due to vibration or gravity, thus ensuring the quality of the scanned image.

[0126] It should be noted that the rotating groove 1431a is roughly a circular through groove, the shaft part 1441 is roughly a circular boss, and the first locking member, the second locking member, the third locking member and the fourth locking member are all bolts.

[0127] In at least one embodiment of this application, the telescopic component includes:

[0128] A fixing rod 1442 is fixed at one end to the main body 110;

[0129] The telescopic rod 1443 has a shaft portion 1441 at one end and a telescopic groove at the other end, and the fixed rod 1442 is received in the telescopic groove;

[0130] The fourth locking member 1445 has one end abutting against the telescopic rod 1443, and the other end extends through the telescopic rod 1443 into the telescopic groove and abuts against the fixed rod 1442. The fourth locking member 1445 is used to release or lock the telescopic rod 1443.

[0131] In this embodiment, when it is necessary to adjust the distance between the second scanning head 150 and the scanning area 150a (for example, according to the width of the embroidery product, the coverage of the pattern, etc.), the user loosens the fourth locking member 1445. At this time, the fixing rod 1442 can slide in the telescopic groove, driving the entire telescopic rod 1443 and the rotating head 1431 connected above and the second clamping member 141 (i.e., the second scanning head 150) to move back and forth. After moving to the appropriate position, the user tightens the fourth locking member 1445, so that it locks the telescopic rod 1443 and the fixing rod 1442 inside, completing the position fixation and ensuring that the second scanning head 150 and the first scanning head 130 are always accurately aligned to form the scanning area 150a of the required size.

[0132] Through the telescopic structure, the distance between the second scanning head 150 and the first scanning head 130 can be flexibly adjusted according to the width or thickness of the gold embroidery product, so as to accurately control the scanning area 150a and meet the collection needs of different types of products (such as fan-shaped, flat, three-dimensional embroidery, etc.).

[0133] The telescopic adjustment ensures that the distance between the second scanning head 150 and the first scanning head 130 is symmetrical and registered, so that the acquired front and back images are highly consistent in size and position, providing a precise data basis for the generation of electronic templates.

[0134] Both the second scanning head 150 and the first scanning head 130 are image scanning devices, such as cameras.

[0135] The above description is merely an embodiment of this application. It should be noted that those skilled in the art can make improvements without departing from the inventive concept of this application, but these improvements all fall within the protection scope of this application.

Claims

1. A portable electronic template generator for gold embroidery images, characterized in that, include: main body; An adjustment component is installed on one side of the main body and is rotatably connected to the main body. The first scanning head is mounted on the side of the adjustment assembly away from the main body; An active component, one end of which is mounted on the other side of the main body; The second scanning head is installed on the side of the movable component away from the main body. A scanning area is formed between the first scanning head and the second scanning head. The movable component is adjusted to adjust the second scanning angle of the second scanning head. The adjusting component is released or clamped to change the first scanning angle of the first scanning head.

2. The portable gold embroidery image electronic template generator according to claim 1, characterized in that, The adjustment component includes: The first clamping member has a first clamping groove, and the first scanning head is partially housed in the first clamping groove and rotatably connected to the first clamping member; A first locking member is threadedly connected to the first clamping member to release or lock the first clamping member.

3. The portable gold embroidery image electronic template generator according to claim 2, characterized in that, The first clamping member includes two opposing first clamping portions and a second clamping portion, with the first clamping portion and the second clamping portion forming the first clamping groove; The first scanning head includes a first scanning section and a first ball head connected to the first scanning section, the first ball head extending into the first clamping groove.

4. The portable gold embroidery image electronic template generator according to claim 3, characterized in that, The first clamping member further includes a first arc-shaped portion, which is disposed in the first clamping groove and fits against the first ball head.

5. The portable gold embroidery image electronic template generator according to claim 2, characterized in that, The main body has multiple light source slots, and a first fixed position is formed on the main body. One end of the adjustment component is fixed to the first fixed position, and the multiple light source slots are arranged at equal angles with the first fixed position as the center. The portable gold embroidery image electronic template generator also includes: A light-emitting element is disposed within the main body, and the light emitted by the light-emitting element passes through multiple light source slots to illuminate the scanning area.

6. The portable gold embroidery image electronic template generator according to claim 5, characterized in that, The main body is also provided with an exhaust duct that communicates with the light source slot, and the exhaust duct is set perpendicular to the opening direction of the light source slot. The portable gold embroidery image electronic template generator also includes: An exhaust fan is located inside the main body and communicates with the exhaust duct to draw in dust from the scanning area and blow it out through the exhaust duct.

7. The portable gold embroidery image electronic template generator according to claim 1, characterized in that, The active components include: The second clamping member has a second clamping groove, and the second scanning head is partially housed in the second clamping groove and rotatably connected to the second clamping member; The second locking member is threadedly connected to the second clamping member and is used to adjust the opening size of the second clamping groove; The rotating component is fixed at one end to the main body and rotatably connected to the second clamping member at the other end.

8. The portable gold embroidery image electronic template generator according to claim 7, characterized in that, The second clamping member includes a third clamping portion and a fourth clamping portion disposed opposite to each other, and a second clamping groove is formed between the third clamping portion and the fourth clamping portion; The second scanning head includes a second scanning section and a second ball head connected to the second scanning section, the second ball head portion being housed within the second clamping groove.

9. The portable gold embroidery image electronic template generator according to claim 7, characterized in that, The rotating component includes: The rotating head has one end fixedly connected to the second clamping member and the other end has a rotating groove. The telescopic component has one end fixed to the main body and the other end provided with a shaft portion, which is received in the rotating groove and rotatably connected to the rotating head; The third locking member has one end abutting against the rotating head, and the other end extending through the rotating head into the rotating groove and abutting against the shaft. The third locking member is used to release or lock the rotating head.

10. The portable gold embroidery image electronic template generator according to claim 9, characterized in that, The telescopic component includes: A fixing rod, one end of which is fixed to the main body; The telescopic rod has a shaft at one end and a telescopic groove at the other end, and the fixed rod is housed in the telescopic groove. The fourth locking element has one end abutting against the telescopic rod, and the other end extending through the telescopic rod into the telescopic groove and abutting against the fixed rod. The fourth locking element is used to release or lock the telescopic rod.