Company Filing History:
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1 out of 2 Years Active: 2024
Title: **Huqing Liang: Innovator of Construction Methods in Guangzhou**
Introduction
Huqing Liang is a distinguished inventor based in Guangzhou, China, known for his innovative contributions to construction methods. With a focus on addressing the complexities of unequal-span structures, he has developed a unique technique that enhances construction efficiency and structural integrity.
Latest Patents
Huqing Liang holds a patent for a "Segmental track-changing and accumulative sliding construction method for unequal-span structure." This innovative method involves dividing an unequal-span structure into multiple sliding sections, each with corresponding track segments. By utilizing sliders on the main truss or beam of each sliding section, Liang's design allows for a smooth transition through the track segments, ensuring precise positioning. Additionally, the construction method includes a temporary lengthening auxiliary structure to facilitate easier passage of the main truss/beam.
Career Highlights
Throughout his career, Huqing Liang has collaborated with prominent construction companies, including Guangzhou Construction Engineering Co., Ltd. and Guangzhou Wu Yang Construction Machinery Co., Ltd. His expertise in construction methods has made significant contributions to the field, displaying his commitment to advancing engineering practices.
Collaborations
Huqing Liang has had the opportunity to work alongside talented individuals such as Long Wang and Wei Wei. Collaborating with other professionals has allowed him to refine his ideas and further develop his innovative methodologies in construction.
Conclusion
Huqing Liang stands out as an inventor dedicated to enhancing construction techniques through innovative approaches. His patented method illustrates his ability to address practical challenges in the industry, solidifying his reputation as a key contributor to advancements in construction engineering. As he continues to push the boundaries of traditional practices, his work promises to influence future developments in the field.