A device for making a bronze sculpture painting

By introducing a rotary motor and switching components into the copper sculpture painting production device, the automatic and rapid switching of painted parts is realized, which solves the problems of low efficiency and unstable quality caused by manual tool changing, improves the production efficiency and quality of copper sculpture painting, and meets the needs of modern industrial automation.

CN224463088UActive Publication Date: 2026-07-07NANNING YIKESHU LOGO MAKING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NANNING YIKESHU LOGO MAKING CO LTD
Filing Date
2025-06-24
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In the current production of copper sculptures and paintings, the replacement of painting tools generally relies on manual operation, which leads to low efficiency, unstable quality and high cost, and cannot meet the needs of modern production.

Method used

Design a copper sculpture painting production device, which uses a rotary motor, a switching plate, multiple placement slots and painting parts, and a switching component to realize automatic and rapid switching of painting parts, reduce manual intervention and improve the degree of automation.

Benefits of technology

Significantly reduces tool change downtime, improves production efficiency, reduces installation errors, ensures the quality and stability of spraying operations, reduces labor costs, and adapts to the needs of modern industrial automated production.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The utility model discloses a kind of bronze sculpture colour painting manufacturing devices, including truss, the truss top is equipped with connecting frame, the truss is equipped with driving unit outside, and truss is connected with driving unit by connecting frame, rotating motor is equipped on the truss side, and rotating motor is equipped with switch board, multiple placing grooves are evenly provided on the switch board, and coating part is equipped in each placing groove, and the truss bottom is equipped with switch assembly matched with connecting assembly;The utility model is equipped with rotating motor, switch board and multiple placing grooves and coating part, and switch assembly is matched, and different coating parts can be automatically and quickly switched, without manual replacement, greatly shorten the downtime due to tool replacement, improve the overall manufacturing efficiency of bronze sculpture colour painting, speed up production rhythm, more product manufacturing can be completed in shorter time;Meanwhile, automatic switch assembly replaces manual operation, reduces the installation error, operation instability etc. that can appear when manual tool replacement.
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Description

Technical Field

[0001] This utility model relates to the field of copper sculpture and painting technology, and in particular to a copper sculpture and painting production device. Background Technology

[0002] In the field of modern copper sculpture painting, with the continuous improvement of production efficiency and product quality requirements, more and more companies are using mechanical equipment for automatic spraying operations. Automatic spraying operations can achieve a more uniform coating effect and greatly improve production efficiency compared with traditional hand painting, thus meeting the growing market demand for copper sculpture painting.

[0003] However, during automated spraying operations, the diverse processes involved in copper sculpture painting require various coating tools with different functions. These include spray guns for large-area painting, dispensing heads for detailed application, printing heads for pattern printing, and scrapers for creating special textures. Currently, these tools are typically replaced manually. This manual tool replacement method has several drawbacks. Firstly, frequent manual replacements are time-consuming, significantly impacting the overall production efficiency of copper sculpture painting and increasing the production cycle. Secondly, manual operation introduces errors and instability, potentially leading to improper tool installation and affecting the quality of subsequent spraying operations. Furthermore, manual tool replacement requires substantial labor costs, hindering the company's economic benefits.

[0004] To address this issue, a copper sculpture painting production device is proposed to solve the problems existing in the current technology. Utility Model Content

[0005] The purpose of this utility model is to address the aforementioned problems by providing a copper sculpture painting production device. This utility model, through the installation of a rotary motor, a switching plate, multiple placement slots and painting parts, along with a switching assembly, can automatically and quickly switch between different painting parts without manual replacement. This significantly reduces downtime caused by tool changes, improves the overall production efficiency of copper sculpture painting, accelerates the production pace, and allows for the production of more products in a shorter time. Simultaneously, the automatic switching assembly replaces manual operation, reducing installation errors and operational instability that may occur during manual tool changes. To achieve the above-mentioned utility model objectives, the technical solution adopted by this utility model is as follows:

[0006] According to one aspect of the present invention, a copper sculpture painting production device is provided, including a truss, a connecting frame at the top of the truss, a drive unit outside the truss, and the truss being connected to the drive unit through the connecting frame. A rotary motor is provided on the side of the truss, and a switching plate is provided on the rotary motor. Multiple placement slots are evenly opened around the circumference of the switching plate, and each placement slot is provided with a painting component. Each painting component has a connecting component at its end, and a switching component that cooperates with the connecting component is provided at the bottom of the truss.

[0007] Preferably, the connecting assembly includes a quick connector at the lower end of the truss, and the quick connector is divided into a mother body and a daughter body. Each of the painted parts has a daughter body at its end. The bottom of the truss has a connecting rod, and the lower end of the connecting rod has a mother body. The mother body has a connecting pipe, and the other end of the connecting pipe is connected to the power unit. The lower end of the truss has a switching assembly that mates with the quick connector.

[0008] Preferably, the switching assembly includes a sliding plate slidably disposed at the bottom of the truss, a switching cylinder is provided at the bottom of the truss, and the output end of the switching cylinder is connected to the sliding plate, a groove is provided on the sliding plate, and a connecting rod is slidably disposed in the groove, a limiting cylinder is provided on the sliding plate, and the output end of the limiting cylinder is connected to the connecting rod, a support rod is provided on the side of the sliding plate near the switching cylinder, and a support ring is provided at the lower end of the support rod, and the support ring is disposed on the outer circumference of the connecting pipeline.

[0009] Preferably, the support rod has an auxiliary rod on the side near the connecting rod, and the auxiliary rod is a telescopic rod.

[0010] Preferably, the auxiliary rod is located in the middle section of the connecting rod and the support rod in the vertical direction.

[0011] In summary, due to the adoption of the above technical solution, the beneficial effects of this utility model are:

[0012] The copper sculpture painting production device described in this utility model, by setting up a rotary motor, a switching plate, and multiple placement slots and coating parts, combined with a switching component, can automatically and quickly switch between different coating parts without manual replacement, greatly reducing downtime caused by tool replacement, improving the overall production efficiency of copper sculpture painting, accelerating the production pace, and enabling the production of more products in a shorter time; at the same time, the automatic switching component replaces manual operation, reducing installation errors and operational instability that may occur when manually changing tools. Attached Figure Description

[0013] Figure 1 This is a three-dimensional structural schematic diagram of the present invention;

[0014] Figure 2 This is a utility model Figure 1 Side view;

[0015] In the attached diagram, 1 is the truss; 2 is the connecting frame; 3 is the rotary motor; 4 is the switching plate; 5 is the placement slot; 6 is the painted part; 7 is the main body; 8 is the sub-body; 9 is the connecting rod; 10 is the connecting pipe; 11 is the sliding plate; 12 is the switching cylinder; 13 is the slide; 14 is the limiting cylinder; 15 is the support rod; 16 is the support ring; and 17 is the auxiliary rod. Detailed Implementation

[0016] To make the objectives, technical solutions, and advantages of this utility model clearer, the following detailed description is provided with reference to the accompanying drawings and preferred embodiments. However, it should be noted that many details listed in the specification are merely to provide the reader with a thorough understanding of one or more aspects of the utility model, and these aspects can be achieved even without these specific details.

[0017] Please see Figures 1 to 2 This utility model provides a copper sculpture painting production device, the technical solution of which is as follows:

[0018] The system includes a truss 1, with a connecting frame 2 at its top. A drive unit is located outside the truss 1, and the truss 1 is connected to the drive unit via the connecting frame 2. A rotary motor 3 is located on the side of the truss 1, and a switching plate 4 is located on the rotary motor 3. Multiple placement slots 5 are evenly distributed around the circumference of the switching plate 4, and each placement slot 5 contains a coating component 6. The coating component 6 includes a spray gun, a glue dispensing head, a paint spraying head, a scraper, etc., which can be installed according to actual needs. Each coating component 6 is a modular product, which can improve the adaptability to the production of copper sculpture paintings by cooperating with the placement slots 5. Each coating component 6 has a connecting component at its end, and a switching component that cooperates with the connecting component is located at the bottom of the truss 1.

[0019] The drive unit is an operating robot. The truss 1 is connected to the operating robot through the connecting frame 2. Driven by the robot, it works with multiple painting parts 6 to perform copper sculpture painting. Connecting the truss 1 and the operating robot through the connecting frame 2 allows the device to be integrated into the automated production system. It works with the robot to achieve more flexible and precise operation, adapting to the automation requirements of modern industrial production.

[0020] By setting up a rotary motor 3, a switching plate 4, multiple placement slots 5, and coating parts 6, along with a switching assembly, different coating parts 6 can be automatically and quickly switched without manual replacement. This significantly reduces downtime caused by tool changes, improves the overall production efficiency of copper sculpture painting, accelerates the production pace, and allows more products to be produced in a shorter time. At the same time, the automatic switching assembly replaces manual operation, reducing installation errors and operational instability that may occur when manually changing tools. This ensures accurate and stable installation of coating tools, making the spraying and other operations more stable, which helps improve the production quality of copper sculpture painting, resulting in more uniform and refined product effects and reducing the defect rate caused by improper tool changes.

[0021] The connecting assembly includes a quick connector at the lower end of the truss 1, and the quick connector is divided into a mother body 7 and a daughter body 8. Each of the painted parts 6 has a daughter body 8 at its end. The bottom of the truss 1 is provided with a connecting rod 9, and the lower end of the connecting rod 9 is provided with the mother body 7. The mother body 7 is provided with a connecting pipe 10, and the other end of the connecting pipe 10 is connected to the power unit. The lower end of the truss 1 is provided with a switching assembly that cooperates with the quick connector.

[0022] The other end of the connecting pipe 10 is connected to an energy storage unit adapted to the corresponding painting part 6. For example, the paint spray head is connected to the paint bucket through the connecting pipe 10, and a booster pump is provided for the adaptation. The connecting pipe 10 extends outward for a long time, so the connecting pipe 10 can be set outside the work room. By replacing the energy storage unit adapted to the current painting part 6 outside, the efficiency of copper sculpture painting operation is improved.

[0023] The quick-connector's mother body 7 and daughter body 8 work together to enable a quick and stable connection between the painted part 6 and the truss 1, ensuring stable power transmission during painting operations, making the painting process continuous and uniform, improving the quality of copper sculpture painting, and avoiding problems such as poor material supply and operation interruption caused by loose connections. This connection method is compatible with the overall automated design of the device. In conjunction with the rotary motor 3, switching components, etc., the quick-connector can quickly complete the connection and disconnection when automatically switching the painted part 6, making the tool switching process smooth, helping the automated production to operate efficiently, reducing manual intervention, and meeting the needs of modern industrial automated production.

[0024] The switching assembly includes a sliding plate 11 slidably disposed at the bottom of the truss 1. A switching cylinder 12 is provided at the bottom of the truss 1, and the output end of the switching cylinder 12 is connected to the sliding plate 11. A sliding groove 13 is provided on the sliding plate 11, and a connecting rod 9 is slidably disposed in the sliding groove 13. A limiting cylinder 14 is provided on the sliding plate 11, and the output end of the limiting cylinder 14 is connected to the connecting rod 9. A support rod 15 is provided on the side of the sliding plate 11 near the switching cylinder 12, and a support ring 16 is provided at the lower end of the support rod 15. The support ring 16 is disposed on the outer circumference of the connecting pipe 10.

[0025] By switching cylinder 12 and limiting cylinder 14 in coordination, combined with slide groove 13 and support ring 16 for guiding and positioning, the mother body 7 and daughter body 8 of the quick connector are precisely and stably connected, avoiding human operation errors, ensuring the reliability of the coating tool connection, improving the stability of the copper sculpture painting process, and making the spraying, dispensing and other operations more uniform and refined; the entire process does not require manual intervention for tool connection, and with the switching of coating parts 6 by rotary motor 3, tool changing is fully automated, which meets the needs of modern industrial automation production, greatly improves production efficiency, and reduces time waste caused by manual operation;

[0026] The support ring 16 is fitted outside the connecting pipe 10 to provide auxiliary support for the connecting pipe 10 and the quick connector, enhance the stability of the connection structure, avoid the impact of power transmission on the pipe shaking or the loosening of the connector during operation, ensure the continuous and stable operation of the coating operation, and prevent coating defects caused by equipment vibration.

[0027] An auxiliary rod 17 is provided on the side of the support rod 15 near the connecting rod 9, and the auxiliary rod 17 is a telescopic rod; the auxiliary rod 17 is located in the middle section of the connecting rod 9 and the support rod 15 in the vertical direction.

[0028] The auxiliary rod 17 is located in the middle section between the connecting rod 9 and the support rod 15, and is a telescopic rod. It can provide auxiliary support from the side when the connecting rod 9 is docking or moving. For example, when the limiting cylinder 14 drives the connecting rod 9 to slide along the slide groove 13 and dock with the painting part 6 sub-body 8, the auxiliary rod 17 can work with the support rod 15 to distribute the force on the connecting rod 9, preventing the connecting rod 9 from shifting or shaking due to unilateral or uneven force, ensuring accurate docking of the quick connector, improving the structural stability of the entire switching assembly, making the connection of the painting part 6 more reliable, and reducing operational failures caused by unstable connections.

[0029] Workflow: Each painted component 6 is ready with the switching plate 4, the connecting pipe 10 is connected to the power unit, the sliding plate 11 is in the initial position at the bottom of the truss 1, and the connecting rod 9, support ring 16, etc. are in the corresponding initial posture; when it is necessary to replace the painted component 6, the rotary motor 3 drives the switching plate 4 to rotate, turning the sub-body 8 of the target painted component 6 to the position corresponding to the parent body 7 at the bottom of the truss 1, at the same time the switching cylinder 12 is activated, pushing the sliding plate 11 to move, so that the support ring 16, connecting rod 9, etc. are close to the connecting pipe 10 and the sub-body 8; the limiting cylinder 14 drives... The moving connecting rod 9 slides, guided by the slide groove 13, so that the lower end of the connecting rod 9, the mother body 7, precisely aligns with the end of the coating part 6, the daughter body 8, to achieve a quick connector connection; the support ring 16 is fitted around the outer circumference of the connecting pipe 10 to assist in positioning and stabilize the connection, ensuring the establishment of a power transmission path; after the docking is completed, the coating part 6 begins operation; when switching is required again, the limiting cylinder 14 drives the connecting rod 9 to retract and disconnect the connector, the switching cylinder 12 pulls the sliding plate 11 to reset, the rotary motor 3 rotates the switching plate 4, and the above process is repeated to switch to the next coating part 6.

[0030] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.

Claims

1. A device for producing copper sculptures and painted designs, characterized in that, include: A truss (1) is provided with a connecting frame (2) at the top of the truss (1). A drive unit is provided outside the truss (1), and the truss (1) is connected to the drive unit through the connecting frame (2). A rotary motor (3) is provided on the side of the truss (1), and a switching plate (4) is provided on the rotary motor (3). Multiple placement slots (5) are evenly opened around the circumference of the switching plate (4), and each placement slot (5) is provided with a coating part (6). Each coating part (6) is provided with a connecting component at its end, and a switching component that cooperates with the connecting component is provided at the bottom of the truss (1).

2. The copper sculpture painting production device according to claim 1, characterized in that: The connecting assembly includes a quick connector at the lower end of the truss (1), and the quick connector is divided into a mother body (7) and a daughter body (8). Each of the painted parts (6) has a daughter body (8) at its end. The bottom of the truss (1) is provided with a connecting rod (9), and the lower end of the connecting rod (9) is provided with a mother body (7). The mother body (7) is provided with a connecting pipe (10), and the other end of the connecting pipe (10) is connected to the power unit. The lower end of the truss (1) is provided with a switching assembly that cooperates with the quick connector.

3. The copper sculpture painting production device according to claim 2, characterized in that: The switching assembly includes a sliding plate (11) slidably disposed at the bottom of the truss (1). A switching cylinder (12) is provided at the bottom of the truss (1), and the output end of the switching cylinder (12) is connected to the sliding plate (11). A sliding groove (13) is provided on the sliding plate (11), and a connecting rod (9) is slidably disposed in the sliding groove (13). A limiting cylinder (14) is provided on the sliding plate (11), and the output end of the limiting cylinder (14) is connected to the connecting rod (9). A support rod (15) is provided on the side of the sliding plate (11) near the switching cylinder (12), and a support ring (16) is provided at the lower end of the support rod (15). The support ring (16) is disposed on the outer circumference of the connecting pipe (10).

4. The copper sculpture painting production device according to claim 3, characterized in that: The support rod (15) has an auxiliary rod (17) on the side near the connecting rod (9), and the auxiliary rod (17) is a telescopic rod.

5. The copper sculpture painting production device according to claim 4, characterized in that: The auxiliary rod (17) is located in the middle section of the connecting rod (9) and the support rod (15) in the vertical direction.