Simon John Richardson

Title: The Innovations of Simon John Richardson

Introduction

Simon John Richardson is an accomplished inventor based in Birmingham, GB. He has made significant contributions to the field of combinatorial weighing apparatuses, with a focus on aligning articles for various applications. With a total of two patents to his name, Richardson's work is particularly relevant in the food industry.

Latest Patents

Richardson's latest patent is an article alignment device that combines articles after aligning them. This innovative apparatus allows articles to be input via hoppers, which can be selectively discharged to an alignment tray based on the weight of the articles within the hoppers. A predetermined weight, or a weight within a margin of error of the predetermined weight, is discharged through a chute to the alignment tray. The chute narrows from an inlet position to an outlet position, aligning the articles as they pass through. Once in the alignment tray, the tray is shaken in an unsymmetrical manner to further align the articles. After the alignment is complete, a gate beneath the tray opens, allowing the aligned articles to drop into a receptacle. This invention is particularly useful for aligning elongate articles, such as breadsticks and other foodstuffs.

Career Highlights

Richardson is currently employed at Ishida Co. Limited, where he continues to develop innovative solutions in the field of food processing and packaging. His expertise in combinatorial weighing and alignment technologies has positioned him as a key player in the industry.

Collaborations

Richardson collaborates with Robert Bennett, leveraging their combined expertise to enhance the development of new technologies and improve existing systems.

Conclusion

Simon John Richardson's contributions to the field of combinatorial weighing apparatuses demonstrate his commitment to innovation and excellence. His work continues to impact the food industry positively, showcasing the importance of aligning articles for efficient processing.